FZ3-900 Series
Vision Sensor
Flagship Model
FZ3 Series
Authorised Distributors:Intech Systems Chennai Pvt. Ltd, Chennai-600 032
Ph: +91 44 4353 8888 Fax: 044 4353 7888
E-mail: [email protected] Website: www.intechchennai.com
Real
Color
Greatest Sensing Performance
F Z3 - 900 S erie s
Speed Beyond Expectation
[ Dual Mega ARCS Engines ]
Significantly Shorter Inspection / Startup Time
Thanks to Dual Mega ARCS Engines and
Greatest Sensing Performance
The manufacturing environment is changing every second.
OMRON's FZ3-900 series is a vision sensor system perfect for manufacturers who wish to
flexibly meet these changing needs to make better products.
Greatest Sensing Performance of FZ3 + Dual Mega ARCS Engines.
The industry's first multi-task processing, the FZ3-900 series not only realizes fast,
accurate inspection / measurement flows, but it significantly reduces man-hours and
allows more efficient introduction of your vision sensor system as well as its operation
from setting adjustment to data collection and analysis.
All inspection steps become faster, while the startup time and initial cost are reduced,
which means that the FZ3-900 series vision sensor adds value to your entire
manufacturing process.
2
Fastest Processing
Quicker measurement time
Adopting the industry's first parallel processing algorithms, the FZ3-900 series significantly reduces the total
processing time from image input to result output.
High speed mode(parallel operation)
Trigger intervals
OMRON's unique multi-input function enables ultra-high speed processing.Triggers are input at one-half the
intervals of a comparable system, resulting in double the tact performance one-half the tact time.
High speed mode(single line)
First-ever Multi-task Processing
One controller performs inspections that normally require two units
One controller can independently process triggers for multiple lines.This feature not only significantly reduces
the initial equipment cost, but you also need the installation space for only one unit.
Multi-line random-trigger mode
Faster acquisition of more image measurement data
100% image measurement logging is possible even in inspection processes requiring high accuracy, high speed
and multiple cameras. Inspection images can be saved as quality data and utilized
in developing suitable manufacturing methods.
High speed logging mode
Zero downtime for setting adjustment
Even when a defect or abnormal trend occurs, you can check the condition and adjust the relevant settings
without stopping the line.
Non-stop adjustment mode
Greatest Sensing Performance
Dynamic range Simple lighting environment for ideal imaging
The conventional difficulty in setting and adjusting lighting conditions is ascribed to the limited
dynamic ranges of cameras. FZ3's HDR (High Dynamic Range) function has achieved a high
dynamic range, 5000:1 maximum.This function solves existing problems in setting for lighting.
High Dynamic Range (HDR) function
Image from
a normal camera
Image from
a HDR camera
High resolution High accuracy & wide measurement field
The FZ3-900 series is equipped with a camera offering industry's highest resolution of 5 million
pixels.More precise inspections and measurements are enabled by measuring high-resolution images
with an advanced image-processing algorithm.
5 million-pixel camera
2448 x 2044 pixels
Detecting edges and scratches by slightest color differences
An entirely new imaging technology where a total of 16.77 million colors are captured in a RGB 256
full-color mode for high-speed processing.Color information is processed exactly the same way as
when the subject is viewed by human eyes, which means that colors can be accurately differentiated
even when the contrast between the background and work is low or the color difference is small.
Real color sensing
Edges are detected reliably even when the contrast
between the background and subject is low.
3
Only Possible with Multi-task System
Industry's Fastest Inspection & Measurement Processing
[ Patent Pending ]
Industry's fastest
Dual Mega ARCS Engines
The FZ3-900 series is equipped with Dual Mega ARCS Engines
to process data twice as fast as when one Mega ARCS Engine is
used. This engine achieves multi-task, high-speed processing not
heretofore possible.
Industry's
fastest CPU
With conventional serial systems, each process can not be started
until the previous process is completed.Under the Dual Mega ARCS
architecture, two engines perform multiple tasks in parallel to
dramatically reduce the inspection time.As a result, you can process
more data over a shorter time compared to conventional systems.
P.B.S.
architecture
Dual Mega ARCS
[Conventional processing]
Processing 1
Processing 2
Processing 3
Processing 1
Processing 3
Processing 5
Processing 2
Processing 4
Processing 6
[Dual processing]
Only the Dual Mega ARCS architecture can realize a completely
parallel processing of measurement, adjustment and logging tasks!
The key feature of Dual Mega ARCS Engines is that they enable completely
parallel processing. Parallel processing not only speeds up inspection, but it
also allows the system to behave like having two brains (heads) by letting you
inspect two completely different lines with a single vision sensor or adjust
parameters during inspection.
Dual processing of
<measurement x measurement>
Measurement
Measurement
Measurement
Perfect for applications requiring inspection speed
[1] High speed mode (parallel operation)
One measurement flow is divided into two to process the two sub-flows in parallel P. 5
[2] High speed mode (single line)
The conventional multi-input function has been improved to achieve even shorter
trigger input intervals
P. 5
Measurement
Two different inspections with a single unit
[3] Multi-line random-trigger mode
Two measurement flows can be processed independently
Dual processing of
<measurement x logging>
Measurement
P. 6
Saving all inspection images
[4] High speed logging mode
Measured images can be saved to an external memory device without affecting the
measurement time
P. 6
Logging
Dual processing of
<measurement x adjustment>
Measurement
Adjusting and checking settings without stopping production operation
[5] Non-stop adjustment mode
You can adjust flows and setting parameters during measurement
P. 7
Adjustment
What is ARCS?
Short for "Advanced Real Color Sensing," ARCS is OMRON's patented imaging engine capable
of processing images in real colors. The FZ3 series real color processing captures and quickly
processes vast amounts of color information to achieve ideal sensing close to what human eyes
can. It realizes accurate, stable inspection unthinkable with simple filtering. The ARCS processing
capability continues to advance with the progress of the FZ series.
P. 5 Real Color Sensing
4
Fastest measurement Highspeed mode (parallel operation)
Multiple measurements are processed in parallel with the system making decisions automatically to minimize the total
measurement processing time from image input to result output. This significantly reduces the time to output result following
a trigger input. This feature is ideal for inspections where more data must be processed or higher resolution is needed.
[Conventional flow]
0. Camera
image input
1. Search
2. Search
3. Position
compensation
4. Labeling
[Flow in high speed mode]
1. Search
0. Camera
image input
2. Search
CCD alignment inspection
4. Labeling
3. Position
compensation
5. Scratch
and soiling
6. Number
of edges
7. Area
gravity
center
5. Scratch
and soiling
6. Number
of edges
7. Area
gravity
center
Significantly
shorter
processing time!
Parallel measurement flows significantly reduce
the measurement time. This function is particularly
useful in inspections using high-pixel camera that
otherwise take a long measurement time.
(Example) The flow
shown below reduces the
processing time by 47%
Camera image input
ECM search
Effect
ECM search
•A shorter tact time can be achieved after consolidating
lines or when the utilization ratio is to be improved at
subsequent production increases.
•A lignment data and other measurement results can be
sent to subsequent processes more quickly.
Line regression
Line regression
Operation
Short trigger intervals High speed mode (single line)
OMRON's unique multi-input function has become more advanced. Combined with the parallel processing capability
of Dual Mega ARCS Engines, this function halved the trigger intervals of conventional systems. You can add inspection
items without affecting the current processing time, which gives you scalability to meet future needs.
[Conventional system]
Issues
Without multi-input
Standby
Image capture
Standby
1st
2nd
3rd
Camera images can also be captured during measurement.
If image inputs exceed the buffer capacity, however,
trigger intervals cannot be shortened because the minimum
trigger interval depends on the measurement processing
time.
Trigger
Measurement
processing
1st
2nd
With multi-input
Image capture
1st
2nd
Measurement
processing
1st
Measurement
process 1
4th
2nd
Resolution
3rd
Trigger intervals have
been halved!
[High speed mode]
Image capture
3rd
1st
2nd
3rd
4th
1st
Measurement
process 2
Appearance inspection of caps
Parallel measurement processing halves the trigger
i n t e r va l s o f c o nve n t i o n a l s y s t e m s . A s a r e s u l t , t h e
inspection tact time is also reduced to a half.
5th
6th
3rd
2nd
7th
5th
4th
6th
(Example) The flow shown below halves the
trigger intervals of conventional system to only
26 ms.
Camera image input
Color gray filter
Position compensation
T h e p r o c e s s i n g f l ow s f o r fi r s t a n d s e c o n d
triggers are processed in parallel to halve the
trigger interval.
Background trimming
Shape search+
Processing before
measurement
Processing before
measurement
Color gray filter
Fine matching
Effect
Shorter trigger intervals shorten the inspection cycle time.
5
Benefit of a Multi-task System
Reduce the time and cost for setup and operation
One unit performs inspections that normally require two units Multi-line random trigger mode
Conventional imaging systems cannot perform two inspection processing simultaneously. With Dual Mega
ARCS Engines, one controller accepts two trigger inputs simultaneously or randomly to process two different
setups parallely or independently.
Issues
Before, two controllers were needed to inspect two locations,
processes or lines within the required tact time, which added
to introduction cost.
Introduction
cost
Installation
space Halved!
All you need
is one unit
Random inspection of lines
positioned close to each other
Simultaneous inspection of two
locations
Even when the timing of work arrival
is not at constant intervals, they can be
inspected with only one controller.
This mode is ideal for applications where triggers
are not input simultaneously or constantly, such
as when the top surface is inspected with a single
trigger and side faces with four triggers.
Resolution
With the FZ3-900 series, on the other hand, two triggers
can be input randomly to run two independent inspection
processing in parallel.
Effect
You can reduce the number of controllers to be installed
to save installation space, introduction cost and current
consumption.
All images can be saved even during measurement High speed logging mode
Complete parallel processing of measurement and logging means you can also connect high-speed, largecapacity (up to 2 terabytes) hard disk drives. Accordingly, you can save all images on high-speed tact lines,
which was difficult to do with conventional systems (*1).
*1 All images can be saved under the following conditions:
•300,000-pixel camera x 1 unit . Measurement time: 33 ms
•Images can be saved continuously for approx. one week when a 2-terabyte
HDD is used (based on 8 hours of operation a day).
[Conventional system]
Priority on measurement processing
Image input Image input 1
Measurement
processing
Image
logging 1
Image logging
Priority on image logging
Image input Image input 1
Measurement
processing
Measurement
processing
Measurement
processing
Image input 2
Image input 3
Measurement
processing
Interruption
The next image input is delayed
Image input 2
Measurement
processing
Since logging was not possible during measurement, the user
had to choose either measurement or logging. Accordingly,
not all images could be saved or image input triggers had to
be delayed depending on the measurement trigger intervals.
Image logging 1
[High speed logging]
Image input Image input 1
Issues
Measurement
processing
Measurement
processing
Image input 2
Image logging 1
Image input 3
Measurement
processing
Image logging 2
Resolution
Measurement and image logging are processed completely in
parallel. As a result, you can save all images.
All images are saved.
Defect inspection on a new
product or a line adopting a
new manufacturing method
Printing inspection in
automobile assembly
processes
All images you have saved can be utilized for
trend analysis to help establish an appropriate
manufacturing method quickly for a new product
or a line adopting a new manufacturing method.
Effect
•W hen a NG occurs, the cause can be identified and
remedial actions taken quickly.
•S aving all images leads to more efficient traceability control.
6
Zero downtime for setting adjustment Non-stop adjustment mode
You can check conditions and reconfigure settings while measurement is still in progress if dimensional
variations of works, changes in external environment, etc., require adjustments and checks. Since adjustment
is possible without stopping the line/inspection, you can eliminate downtime, need to add visual inspections
to identify uninspected products, and cost increase associated with them.
Parallel processing of inspection
and adjustment
Continuous inspection
without stopping line
operation
Apply the
new settings.
A NG occurs.
NG analyzer
Check saved images to
identify the cause.
Change the settings.
Measure again in a trial
run to confirm the
settings.
Identify the cause and adjust the settings.
Downtime
Loss cost
Zero
Printing / soiling inspection of sheets
Loss cost can be reduced. Ideal for
mass-production processes with a higher
unit production volume or 24-hour lines.
Effect
•R esults can be checked and adjustment can be made with
zero downtime.
•B ecause the line is not stopped, there is less idle time
associated with restarting of the line.
Doubly effective when combined with the Non-stop adjustment mode NG analyzer
You can display in a structured manner a graph showing the results measured at once on logging images. This
lets you identify the cause of a given NG much more quickly. You can also measure all images again after
changing a given setting, to check the reliability of the new setting. Adjustment and troubleshooting has never
been so quick, simple and reliable.
Processed items and parameters that
generated an erroneous judgment can be
identified at a glance.
Yo u c a n c h e c k t h e d e t a i l e d r e s u l t s o f
parameters to identify the cause of the NG.
Select a desired measurement result on the
graph to switch to the adjustment mode.
7
Original HDR Technology
Making it possible!
Eliminate the side effects of lighting
High Dynamic Range Function
FZ3's high dynamic range minimizes the effects of lighting such as halation and allows highly precise
inspections.
Conventional images
HDR image
Halation
Dynamic range
of the upper
image
Dynamic
range
after HDR
processing
Underexposure
Dynamic range
of the lower
image
Defects Undetectable Due to Overexposure or Underexposure
Any spot outside the dynamic range is blurred by halation
or shadow.
The surface of the workpiece is accurately reproduced and
detected even with overexposure or underexposure.
Reflective and shadowy areas can be
reproduced simultaneously under the same
lighting conditions.
The reflective surfaces of cylindrically-curved
workpieces in which conventional vision
sensors have had difficulty can be reproduced.
Conventional images
HDR image
The surfaces of metal workpieces can be
reproduced accurately.
Conventional images
8
Defects Detectable Even on Reflective or Shadowy Surfaces
HDR image
Conventional images
HDR image
The influence of changing lighting conditions
from day to night are effectively minimized.
Conventional images
HDR image
Day
Day
Night
Night
HDR Image Generation Technology
Dynamic range means the imaging hardware's ability to manage differences in lighting. The higher dynamic range the hardware
scores, the clearer images it can generate when imaging objects with a strong contrast in luminosity. Featuring the HDR Image
Generation technology, FZ3 can take two or more images of a workpiece at different levels of luminosity by automatically changing
its shutter speed and synthesizes them into a single image rapidly. As a result, the bright field where image capture is possible
expands 5,000 times in LD ratio compared to a general CCD camera. Accordingly, you can obtain vivid images not possible in
processing flows where images are color-depth filtered one by one in real time.
Instantaneously calculates the
luminosity distribution in the field
of view, and automatically setting a
number of images to be taken and the
shutter speed for each image.
Continuous imaging at different shutter speeds.
I nst ant an e ous synt h e sis of dif fe r e nt
images at different levels of luminosity.
T h e w i d e d y n a m i c r a n g e a l l o w s yo u
to generate clear images even with
overexposure or under changing lighting
conditions.
Luminosity
distribution
histogram
Luminosity
1s t im ag e
high speed
2nd image
medium speed
3rd image
low speed
HDR High-Contrast Mode
The HDR function that quickly produces multiple composite images offers the high-contrast mode. In this mode, images captured
at a constant shutter speed are layered on top of one another and output. Before, each image had to be enlarged to increase
contrast, and consequently the noise component of the image was also amplified. In the HDR high-contrast mode, on the other
hand, multiple images are combined together and then averaged to reduce their noise component, after which the images are
enlarged. This way, only the contrast of the area of interest and its background can be increased.
Conventional system
Low contrast makes the surface appear uniform.
HDR high-contrast image
Many scratches and soiled areas can be found.
Technology of HDR High-Contrast Mode
Enlargement
Integration
Luminosity
Luminosity
There is a low contrast in brightness between the background noises and the thing to be
inspected.
The contrast is enhanced by integrating and enlarging two or
more images.
9
High Resolution Image Generation
Higher Resolutions and Wider Fields of Vision
5 Million-Pixel Cameras
The new 5 million-pixel cameras allow high precision appearance inspections and measurements that cannot be
handled by conventional 2 million-pixel cameras.
5 million pixels
(2448×2044 pixels)
Color Type
FZ-SC5M2
2 million pixels
(1600×1200 pixels)
B l a ck a n d
White Type
FZ-S5M2
1.5-times wider field of vision
Reducing Tact Time
Eve n a l a r g e
workpiece can be
imaged at one time
a n d t h e d et a i l s ar e
very clear
300,000
pixels
2 milion
pixels
2044
FZ3 takes a single
wide-view image of a
large workpiece used
be imaged in multiple
pieces and thus
reduces inspection
tact time.
5 milion pixels
2448
Reducing Set-up Time
Making Invisible Defects Visible
Thanks to the
cameras' wider fields
of vision, you don' t
have to move their
positions during set
up on a production
line for different
products in different
sizes.
High-speed Camera
5 million pixels
Intelligent Compact Camera NEW
The speed of capturing images by a 0.3-megapixel
Camera has been greatly increased.
The difference is most obvious in applications
requiring a wide field of vision, high precision,
and high speed.
color
Black & White
Ordinary 300,000-pixel camera
This compact camera comes equipped with high-power
illumination that evenly lights the field of vision.A
leading-edge optical system provides four times the
brightness of previous models.For glossy surfaces that
easily reflect light, an accessory Polarizing Filter can
be used to cut glare and easily produce a clear image.
FZ-SHC
FZ-SH
33.3ms
Equipped with Polarizing
Filter to Cut Regular
Reflection
12.5ms
300,000-pixel camera of FZ3 Series
color
High-speed Camera
4.9ms
10
2 million pixels
The improved
resolution of the
system's cameras
allows you to detect
ver y slig ht d efe c t s
that were impossible
for its predecessor to
catch.
[email protected]
Autofocus Camera / Intelligent Camera with illumination
Intelligent Lighting
You can control the brightness levels of up to 8 lights in 256 gradations.
Since you can register the most appropriate setting for each lighting task,
stable lighting conditions are always ensured.
* Function available only with FZ-SLC100 and FZ-SLC15
Lighting Patterns
Autofocus Camera
Intelligent Camera
FZ-SZC100
Color FZ-SZC15
FZ-SLC100
Color FZ-SLC15
These image processing cameras for FA needs
are equipped with auto focus functions and lights.
You can remotely control the focus, aperture, field
of vision and lighting of the cameras installed at
a distant from the controllers. You can apply a set
of lighting conditions for any particular inspection
to different lines by saving the setting data for the
inspection into the controller. This function allows
prompt setting for each inspection procedure.
It also helps reduce setting variations among
individual operators.
Brightness Levels
8 places can be controlled
256 gradations
Innovative zoom function
With this function, the camera can flexibly respond to inspections
on mixed production lines or any changes in its field of vision for
additional inspections.
Model with Narrow Field of Vision
Setting the focus, aperture
and field of vision
Approx.
15 mm
Approx. 3 mm
Model with Wide Field of Vision
13mm
100mm
Approx. 35 to 67 mm
Approx. 70 to 197 mm
Ultra-compact Pen-shaped Camera / Ultra-slim Flat Camera
Our high-performance, high-speed 300,000-pixel cameras
have been remarkably downsized. They can be installed in
spaces which are too small for conventional cameras.
Most compact and
shortest pen-shaped
camera in the Industry
Suitable for use in narrow
spaces
12mm
First slim flat camera in the
Industry
Suitable for use in spaces with
little depth that usually require
mirrors
22mm
18mm
Approx.
32 mm*
Approx. 59 mm *
Color
Black & White
Color
FZ-SPC
Black & White
FZ-SP
FZ-SFC
FZ-SF
*This is the size with nothing other
than a lens (FZ-LES3).
2-million-Pixel camera
300,000-pixel Camera
This high-resolution 2-million-pixel camera
(1600 × 1200 pixels) boasts the fastest image
capture speed in its class. It is equivalent
to the speed of 300,000-pixel cameras.
Furthermore, the camera can capture 1-millionpixel images (1600 × 600 pixels) at a speed of
60 fps in the partial capture mode.
Color
Black & White
FZ-SC2M
FZ-S2M
Ordinar y 2-million-pixel
camera
15fps(66.6ms)
Partial capture of
1-million-pixel images
30fps(33.3ms)
T h i s c a m e r a a c h i eve s a n i m ag e
capture speed of 80 fps with full VGA
resolution of 640 × 480 pixels, saving
input time about 4 ms. It features high
speed with highest cost performance.
Furthermore, it allows faster image
capturing in the partial capture mode.
Color
FZ-SC
Black & White FZ-S
High speed image capturing of 80 fps
High speed image capturing of 30 fps
2-million-pixel camera
of FZ3 Series
*This is the size with nothing other than a lens
(FZ-LES3) and does not include a spacer for
installation.
Ordinary double speed
camera
(Resolution: 512 × 480)
60fps(16.7ms)
Ultra-high-speed
Camera of FZ3 Series
(Resolution: 640 × 480)
80fps(12.5ms)
Partial capture function
60fps(16ms)
This function allows you to specify any
part of the workpiece and capture images
thereof at a faster speed.Image capturing
at a speed of 3 ms maximum is possible.
Strobe Controller to manage the Lighting Without Complex Wiring and Additional Power Supply
You can easily control lighting by connecting this strobe controller to the camera and the light using a single cable.
Unlike ordinary lighting control units built on controllers, you do not need any complex wiring for this strobe
controller. This makes the system very easy to handle. You can control all lighting sequences with this controller.
LED lights
Camera Cables
Application Examples
Small Size for Easy Installation
No Additional Power Supply Needed
Camera
108mm
Simple System With Simple Wiring
Strobe controller
Controlling Lighting from the Controller
Controller
The strobe controller
installed on a robot
is ideal for robotic
inspections.
The controller can
prevent mutual
interference between
different cameras by
controlling lighting.
Data of specific lighting
conditions can be saved in
the controller. In this way,
you can save time for setting
lighting conditions before
conducting each inspection.
11
Real-time Image Generation Technology
Ideal for Inspection
[ Patent Pending ]
Minimizing the effects of the camera position or flutter during the carrying process
Trapezoidal Distortion Correction
Correcting distorted images shot from an angle. High-precision inspections are ensured even when images are
taken from an angle or the carrying process is unstable.
Scroll
Registered model image
NG
OK
[Conventional system]
S c ro l l o f t h e s u b j e c t re d u c e s t h e
correlation value. The model cannot be
detected.
[After trapezoidal distortion correction]
Even when scroll occurs, the distortion is
compensated to make sure the model is
detected stably.
Cross shots image capture
is possible
Coping with any flutter in
the carrying process
FZ3 allows space-saving line designs
s i n c e c a m er a s c a n b e m o u nte d
in any small spaces at any angle.
Fur thermore, you would have no
d i f f i c u l t y i n f i n d i n g a p p r o p r i at e
spaces for an additional camera for
an additional inspection item.
High-precision inspections are
ensured even when there is flutter
in the carrying process. Unlike the
conventional vision sensors, FZ3 can
also correct perspective distortions.
Not only the
horizontal and
vertical positions,
but also the
inclination can be
compensated.
Even when the subject inclines
due to the movement of the arm,
its position can be compensated.
[ Patent Pending ]
Precise Inspections of Large Workpieces in Whole
Ultra-Wide Panorama Image Processing
When taking images of a large workpiece in multiple pieces using two or more cameras, a conventional vision
sensor processes the images taken by the cameras separately in order to secure a satisfactory level of resolution.
FZ3's panoramic image processing*1 capability allows the measurement of a large or long workpiece in whole
by synthesizing the images taken by camera and generating a single image from them.
Wide Panorama
Images taken by two to four 2-million-pixel
cameras are put together like a line camera to
generate a single image as if it is taken by a
single camera when inspecting a horizontally
long workpiece.
Synthesis of up to four images
U p t o fo u r i m a g e s c a n b e sy n t h e s ize d
horizontally and vertically in accordance with
the shape of the workpiece.
5200 pixels *2
Camera Image 1
Camera Image 2
An inspection area can be
specified across the images taken
by two or more cameras.
Camera Image 1
Camera Image 3
Camera Image 4
The position of the inspection
area can be adjusted based on
the overview image.
Camera Image 3
The position of the
workpiece is
measured based on the
overview image.
*1 This feature can be performed with cameras of 2 million pixels or less.
*2 The images of four 2 million-pixel cameras overlap each other at their
edges, with each overlapping area covering 25% of the entire area of each
image.
12
Camera Image 2
Camera Image 4
[ Patent Pending ]
Eliminating reflection of light on the surfaces of moving workpieces
High-speed Halation Prevention Filter
This feature detects blurs caused by
halation or unstable lighting, and
automatically make corrections.
It is very useful when workpieces to be
inspected are moving at a high speed
or inspections are made through a
transparent film.
Before processing
After processing
Analyzing the color elements captured as
specular light (halation)
Automatically choosing the most appropriate
filter to prevent halation and generating
images most appropriate for inspections
Halation is cut off by capturing
images using a special halationcutoff lamp (FZ-SXCRB7018BR4S).
Removing fringes to detect defects
Fringe-killer Filter
Other than detecting defects by
s u b t r a c t i o n , F Z 3 c a n a l s o r e m ove
some peculiar patterns such as fringes
in the background for more stable
inspections.
Conventional images
Image processed by the Fringe-killer Filter
The filter removes fringes in the background and detects defects only even when fringes is as big as defects.
Removing horizontal, vertical and lattice fringes
Before processing
After processing
Analyzing images by subtraction and detecting only subtle changes as defects.
Before processing
After processing
FZ3 can choose the type of fringes to be removed in accordance with the
background of each workpiece to be inspected.
13
New generation processing items (approx. 60)
Filters to optimize input images / Position Correction
Color shadings elimination filter
First in the industry
The filter eliminates Specific background color data that may hamper the detection of defects. It also improves the accuracy of
inspection to detect scratches or dirt. This cutting-edge function is made possible only with FZ3's Real Color Sensing technology.
You can easily and
immediately eliminate color
shading just choose a
specific color on the screen.
Color extracting filter
The filter allows the extraction of any specific color from the image. Since you can register up to eight colors, as the colors to be
eliminated, you do not need to adjust settings for different processing items. The filter works in two modes, one for extracting the color
specified and the other for extracting all colors other than the specified one. You can flexibly switch between the two modes according
to requirements for individual inspections.
First in the industry All colors other than the ones specified can be
extracted. When there are a number of colors you want to extract,
this mode saves time in color setting.
Before processing
You can easily specify any color by just clicking it on the screen.
The color char t on the screen, that shows the color you have
chosen, enables intuitive operation even for fine adjustments.
After processing
Extracting pink and yellow green
Up to eight colors can be
registers.
Elimination of Background
A minimum value and a maximum value are set for each of the RGB colors. Any color depth under the minimum value is specified as "0,"
and any depth over the maximum value as "255." Then all other depths between them are stretched into a 0 to 255 scale. An area to be
inspected is visualized with high contrast while the effects of depths outside this scale are eliminated.
255
255
Maximum
value
Minimum
value
0
0
Before processing
After processing
Finding minimum and maximum
values of color depth
Rectangular Development of Circular Images
First in the industry
This function allows recognition of characters printed along the
circumferences of circular surfaces by converting circular images
into rectangular forms. The characters can be inspected with the
same resolution even after such rectangular development.
14
Cutting any depth outside
this scale
Stretching all other depths into
the scale and eliminating the
effects of depth variation
High Precision Inspections of Defect
Inspections of Scratches and Dirt
[ Patent Pending ] Scratch detection profile displayed on the screen
Subtle scratches and dirt can be detected with more fine-tuned
conditions compared to conventional inspections.
Since you can clearly distinguish defects to be detected from the
background, the failure detection rate can be decreased.Combined
with our 5 million-pixel camera, this function enables much more
precise inspections of scratches.
Fine parameters for defect detection
allow fine settings at the pixel level.
You can confirm wave profiles and comparison elements on the screen.
This feature also enables easy thresholding setting and fine adjustments
on the screen.
Fine Matching / Defect
Fine Matching
Defect
It is useful for detecting scratches,
chipped edges or subtle dirt in
complex backgrounds.
It is useful for detecting
scratches and dir t in plain
backgrounds.
With our Real Color Sensing technology, FZ3 can accurately
recognize and process subtle variations in color. This feature helps
you detect unpredictable scratches and dirt. High precision defect
inspections are possible by using both Fine Matching and Defect
flexibly according to the background of each image.
B
R
[ Patent Pending ]
Real
Color
What is Real Color Sensing?
G
In order to secure stable measurements in different inspection environments,
FZ Series feature Omron's proprietary Real Color Sensing processing, in
addition to the conventional color image processing.
Edges are detected reliably even when the contrast
between the background and subject is low.
Color Segmentation Processing
Black
White
Color Image Processing
Black
Dark
Co l o r i m a g e s ta ke n by t h e c a m e ra a re
processed after being converted into black
and white pixels. The color extracted is
represented as white, and the other colors as
black. Based on minimum information, high
speed processing is possible. Since color
data is limited only to brightness, however, it
takes a long time to make optical adjustments
for extracting color features.
Bright
Real Color Sensing
Dark
Color images are converted into 256 levels of
black-and-white brightness and the contrasts
of specific colors is enhanced. More precise,
stable results can be produced compared to
color segmentation. However, this method
has difficulty in capturing subtle variations in
color because all colors are converted into
black-and-white brightness levels. Therefore,
it is difficult to detect subtle changes in
images with low contrast.
16 7 7 I t a l l ow s
the recognition
of 16,770,000
colors.
Different colors are represented as different
positions in the 3D RGB space. Subtle
variations in color can be recognized by
representing them as distances bet ween
different color pixels comprising this space.
Thus, scratches and dir t can be detected
accurately even in images with low contrast.
Previous image processing
OMRON FZ series
15
New generation processing items (approx. 60)
High Speed / High Precision Pattern Recoginition
Shape Search
The geometry correlation search for conducting search based on the
profile information of the workpiece ensures greater absorption of
dimensional variations among individual works (changes in background,
contrast, etc.) and consequently achieves stable detection.
Compared with geometric correlation search
processing by OMRON's conventional system
Conventional
system
Registered model image
Shape
search
700ms
35ms
Approx. 20 times faster detection
(representative example)
The detection speed is approx. 20 times that of a conventional
processing system, which allows for high-speed detection even when
images are captured with high-resolution camera.
Even low-contrast images
are detected stably.
Sensitive Search
This allows the recognition of very subtle differences that cannot
be detected through ordinary search processes, by dividing the
registered model image into several pieces and carefully matching
them. Thus you don't have to spend a lot of time for delicate threshold
setting.
Different conditions for
dividing the model image can
be set.
Flexible Search
Inspection of characters on IC chips
When inspecting workpieces with some variations in shape, such
variations are sometimes recognized erroneously as defects. Flexible
Search ensures accurate searches regardless of some variations in
print quality or shape, by registering several images of non-defective
products as models. It helps you decrease your inspection failure
rate by rejecting defective products only.
Before
model
addition
OK
NG
NG
NG
After
model
addition
OK
OK
OK
NG
Avoiding inspection failures
Area / Labeling
Dynamic segmentation and high-performance
labeling
This item features a dynamic segmentation in addition to the
conventional labeling. This function ensures the accurate detection of
labels by automatically sensing any uneven color depth in the same
image and changing thresholds locally.
Ordinary segmentation
Dynamic segmentation
Easy to sort, Wide variety of conditions to be extracted
•Area
•Gravity (x, y)
•Main axial angle
•Major axis, minor axis and ratio of an ellipse
•Width, height and coordinate (x, y) of a circumscribed rectangle
•Perimeter
•Circularity
•Major axis and minor axis of a rotating rectangle
•Radius of a inscribed circle
•Radius of a circumscribed circle
•Number of holes
High Performance Edge Detection
Scan Edge Position,Scan Edge Width
Edge positions and widths can be accurately detected by dividing
the area to be inspected into several segments.Scan Edge Position
measures the points closest and farthest to the edge as well as the
inclination and surface conditions of the workpiece to be inspected.
Scan Edge Width measures the local and average widths of the
workpiece.This allows the accurate measurement of the positions of
the workpiece's peripheral parts as well as its bore diameters.Edge
detection method can be chosen from the intensity projection method
and the differentiation method.
16
Measuring minimum width
Measuring maximum width
It is also useful for measuring the
depths of grooves on metal shafts.
Character / Code Recognition
Read Bar Codes / 2D Codes
It allows the detection of the types of products before inspections as well as the collection and accumulation of information on
inspections.
Switching among different inspection items according to the types of products
Collecting and accumulating information on inspections in real time
Different sets of inspection items can be automatically set for different types of
products detected through code reading processes.
The item, that covers all processes from product type detection to inspections
without involving the host, can save time for interconnection and programming.
Type: A
You can collect the serial numbers of components and measuring
results in real time while they are being inspected.The causes of
defects can be tracked down immediately by consolidating such
serial numbers and measuring results at the host.
Inspection Items: A
Product Types: A and B
Host
Type: B
Serial No. Inspection
Results
0805201, OK ,
0805202, NG ,
0805209, OK ,
Inspection Items: B
Reading different codes at a time
Measuring
Results
1.5mm
1.6mm
1.4mm
Codes that can be read with FZ3
Bar codes
Two or more different codes in the
same field of vision can be read by
utilizing a high resolution camera.This
function contributes to the reduction of
inspection tact time.
Code128
GS1Databar
(RSS14)
Code39
JAN
2D codes
Glass
DataMatrix
Metal (treated surface)
DataMatrix
Printed-wiring
board
QRCode
Character Inspection / Date Verification
This item allows easy inspections of characters by registering specific
characters in the model dictionary and specifying areas to be inspected.
OCR mode: Reading printed characters and outputting them to an external device.
OCV mode: Judging matching with registered models
OCR + Count: Characters counted simultaneously
Compatible with various
date formats
Calendar function
Character strings to be inspected are automatically updated by specifying
duration of use.It can allows the inspections of encrypted dates (such as "X"
representing 10).
Items supporting measurement
High Precision Calibration
This is a function corresponding to trapezoidal distortion correction.
High precision measurements are possible even when cameras are installed at an angle.
A
D
Imaging from
an angle
B
C
Conventional
calibration
5.1
When trapezoidal
distortions are caused by
perspective differences,
significant calibration
errors are observed.
Coping with geometric computation
Circle/Line Regression
With this item, you can cope with geometric computation in addition to functional
computation.It allows you to relate coordinates very easily while looking at images.
3
5.1
5
5
FZ3
High precision
calibrations are possible
for trapezoidal distortions
by using parameters
considering perspective
transformation.
You can obtain
the center or
radius of a circle
from an arbitrary
number of points
on its perimeter.
5
5
5
You can obtain a straight
line, the intersection of two
straight lines and its angle,
or the distance between
a straight line and a point
from an arbitrarily selected
number of points.
17
Easy to use
Designing
Easy set-up
Flow menu
Basic processing items required for various inspections
such as image input, measurement, display and output are
packaged. FZ3 can immediately support any process, from
the initial setup to the launch of a new line, with the setting
screen for each processing item from which the user can set
the required threshold values and parameters.
Adopting the setting
window for each
processing items,
required parameters and
inspection area can be
set easily.
Drag and drop processing items
Processing equivalent to programming is achieved by
calculating the inspection results and changing the
subsequent processes depending on the results.
Examples of Processing Flow Customization
Defect Inspection for Workpieces Carried at Different Angles to
the Camera
Camera Image Input
In order to inspect wor kpieces placed and carr ied at different
angles to the camera, the most appropriate settings can be made
automatically for each angle.
Conditional Branch
Search
Defect
Defect
Each workpiece's angle to the camera is
detected by extracting its characteristics.
The subsequent process branches depending
on the angle of each workpiece.
Defect
Output results Output results Output results
The most appropriate detection
inspection is conducted for each
workpiece.
Useful Functions in Flow Menu
Flow Group function
Processing items can be named and
grouped.You can efficiently manage a
long work flow by assigning a folder to
each processing item.
Performing different processing items
at a time
Copy & paste processing items from
another scene.
Yo u c a n c o py o r d e l e te t wo o r m o re
processing items at a time by just
checking them on the screen.
Yo u c a n s e t u p a n e w f l o w m e n u b y
c o m b i n i n g d i ffe re n t p ro c e s s i n g i te m s
copied from other scenes.When you want
to utilize the setting of other scene, you do
not need to make adjustments.
Group
A long flow can be
streamlined.
Test Measurement and Setting and
Adjustment On Your PC Without
Stopping the Operation
Images measured on site
are saved in the controller.
Factory line
You can use simulation software that operates in the same
environment as the controller, to perform all tasks from
flow design and test measurement to setting adjustment.
You can make adjustments without stopping the line. This
saves a lot of time at the production site.
Line operation continues.
Settings are copied
to the controller.
Office, etc.
Saved images are loaded to the
PC and used for setting
adjustment and test
measurement using the simulator.
Useful Functions for Test Measurement
Continuous test measurement function
Judgment monitoring function
Settings must be verified with as many images as possible.
With OMRON's FZ3, continuous measurements of
hundreds of images can be performed by a single click.
Continuous measurement stops automatically when a defect
occurs.
Once the measurement stops, you can select the next course
of action right away for efficient testing and verification.
Checking the results of continuous measurement in a graph
450.000
400.000
If a defect occurs, measurement stops automatically -->
Select the course of action.
Trend monitoring
350.000
Time
18
Judgment Monitoring Function
I n t r o d u c i n g a n e w s o ft w a r e p r o g r a m
(VisionOptimizer) that wor ks with the
simulation software to calculate optimum
settings. See the end of this brochure for details.
EtherNet/IP NEW
EtherNet/IP is a widely used communication protocol in factories around
the world. You can easily connect to OMRON PLCs or any other vendor
device that supports EtherNet/IP to enable high-speed communication.
Easy Creation of Ladder Programs Improved PLC
Link Function
There are now more models supporting the PLC function that lets you
perform serial data communication with the PLC link via simple input
operation. This reduces the design man-hours because creating ladder
programs for the PLC has become much easier.
Reading and writing of
I/O memory areas can
be set easily on the
dedicated menu screen.
[Applicable models] OMRON Corporation CS, CJ, CP and NSJ series
<NEW> Mitsubishi Electric Corporation Q series
Operation
Customizable Screens for User-friendly Operation
Operating screens can be customized freely and easily according to the
inspection details and actual environment of the site.
A full set of customization functions are available to let you not only prevent
malfunctions and unexpected downtimes on site, but also take immediate
actions should you encounter sudden defects.
Measurement information
Display of Processing Items
Shortcut buttons
Measurement information to be
shown on operating screens can
be customized.
You can change the items to be
displayed as well as the position
and font size of each item.
You can set "No Display" of any processing
items during operation
You can arrange a set of shor tcut
buttons as you like. With these buttons,
you can promptly cope with any defects
or adjustments whenever necessary
during operation.
Actual Flow of
Processing Items
Display on
Operating Screen
Example of customization
M u l t i - s c r e e n D i s p l a y,
Display of the latest NG
image
Displays on the Measurement screen
can be changed as you like according
to the number of cameras and their
purposes.You can display a detail of a
workpiece and its overall image at the
same time on the screen. This function
also enables a comparison between an
NG image and the image actually being
inspected.
19
Basic Configuration
Controllers
Best performance for each application
Dual-task, High-grade, High-speed Controllers
High-grade, High-speed Controllers
Adopting the industry's first dual-engine architecture, these models can process
high grade items via dual parallel flows.
With the industry's fastest CPU, the controllers promptly processe cutting-edge,
high grade processing items. Not only a 2 million-pixel camera but also a 5
million-pixel-camera can also be connected the controllers.
Real
Color
Real
Color
Two-camera controllers
Controllers
integrated with LCD Four-camera controllers
Two-camera controllers
Box-type
Controllers
Four-camera controllers
FZ3-H900 (NPN) / FZ3-H905 (PNP)
FZ3-H900-10 (NPN) / FZ3-H905-10 (PNP)
FZ3-H950 (NPN) / FZ3-H955 (PNP)
FZ3-H950-10 (NPN) / FZ3-H955-10 (PNP)
Two-camera controllers
Controllers
integrated with LCD Four-camera controllers
Two-camera controllers
Box-type
Controllers
Four-camera controllers
FZ3-H700 (NPN) / FZ3-H705 (PNP)
FZ3-H700-10 (NPN) / FZ3-H705-10 (PNP)
FZ3-H750 (NPN) / FZ3-H755 (PNP)
FZ3-H750-10 (NPN) / FZ3-H755-10 (PNP)
Dual-task, High-speed Controllers
High-speed Controllers
Adopting the industry's first dual-engine architecture, these models can process
standard items faster.
High-resolution 5 million-pixel-cameras can be connected to the controllers with
the industry's fastest CPU. They are ideal for high speed processing of standard
inspection items.
Real
Color
Two-camera controllers
Controllers
integrated with LCD Four-camera controllers
Two-camera controllers
Box-type
Controllers
Four-camera controllers
FZ3-900 (NPN) / FZ3-905 (PNP)
FZ3-900-10 (NPN) / FZ3-905-10 (PNP)
FZ3-950 (NPN) / FZ3-955 (PNP)
FZ3-950-10 (NPN) / FZ3-955-10 (PNP)
Real
Color
Two-camera controllers
Controllers
integrated with LCD Four-camera controllers
Two-camera controllers
Box-type
Controllers
Four-camera controllers
FZ3-700 (NPN) / FZ3-705(PNP)
FZ3-700-10(NPN) / FZ3-705-10(PNP)
FZ3-750(NPN) / FZ3-755(PNP)
FZ3-750-10(NPN) / FZ3-755-10(PNP)
Cameras and Accessories
Digital cameras
High-speed camera
5 million-pixel
2 million-pixel
Color
FZ-SC5M2
300,000-pixel
Color
FZ-SC2M
Color
FZ-SC
Black & White
FZ-S2M
Black & White
FZ-S5M2
300,000-pixel
Color
FZ-SHC
Black & White
FZ-S
Black & White
FZ-SH
Small digital cameras
Lenses
Camera Cables
300,000-pixel flat type
Color
FZ-SFC
Black & White
FZ-SF
High-resolution,
low-distortion lenses
FZ-LEH Series
CCTV lens
3Z4S-LE Series
Camera Cables
FZ-VS
Bend resistant camera cables
FZ-VSB
Right-angle camera cable
FZ-VSL
300,000-pixel pen type
Color
FZ-SPC
20
Black & White
FZ-SP
Small lens
FZ-LES Series
Long-distance camera cable
FZ-VS2
Long-distance right-angle camera cable
FZ-VSL2
High-grade Controllers
These standard controllers feature our cutting-edge High Grade algorithm. They
allow flexible defect solving capability and high speed processing at the same
time.
Real
Color
Two-camera controllers
Controllers
integrated with LCD Four-camera controllers
Two-camera controllers
Box-type
Controllers
Four-camera controllers
FZ3-H300(NPN) / FZ3-H305(PNP)
FZ3-H300-10(NPN) / FZ3-H305-10(PNP)
FZ3-H350 (NPN) / FZ3-H355(PNP)
FZ3-H350-10(NPN) / FZ3-H355-10(PNP)
Controllers integrated with LCD
Box-type Controllers
NEW Lite Controllers
Standard Controllers
They cover all standard functions and processing items. Their performance is
more than adequate.
The reasonable price of this Controller makes it easy to apply to an application.
Standard functions and processing items are joined by a high dynamic range
function and 2-million-pixel camera.
Real
Color
Two-camera controllers
Controllers
integrated with LCD Four-camera controllers
Two-camera controllers
Box-type
Controllers
Four-camera controllers
Intelligent cameras
Real
Color
FZ3-300(NPN) / FZ3-305(PNP)
FZ3-300-10(NPN) / FZ3-305-10(PNP)
FZ3-350(NPN) / FZ3-355(PNP)
FZ3-350-10(NPN) / FZ3-355-10(PNP)
Autofocus cameras
Narrow field of vision
FZ-SLC15
Box-type
Two-camera controllers
Four-camera controllers
Intelligent Compact Camera
Narrow field of vision
FZ-SZC15
Narrow view
FZ-SQ010F
Wide field of vision
FZ-SLC100
Cable extension unit
Cable extension unit
FZ-VSJ
Intelligent camera
diffusion plate
Narrow field of vision
FZ-SLC15-DL
Wide field of vision
FZ-SLC-100-DL
FZ3-L350(NPN)/FZ3-L355(PNP)
FZ3-L350-10(NPN)/FZ3-L355-10(PNP)
Wide field of vision
FZ-SZC100
Standard
FZ-SQ050F
Wide View
(long-distance)
FZ-SQ100F
Wide View
(short-distance)
FZ-SQ100N
Peripheral devices
Strobe controller
FZ-LTA100
FZ-LTA200
Strobe controller designed
specifically for FZ Series
3Z4S-LT MLEK-C100E1TS2
Manufactured by MORITEX
Corporation
LCD monitor
FZ-M08
Monitor cable
FZ-VM
Parallel cable
FZ-VP
FZ-VPX
Halation cut illumination
Integrated unit
combining light, strobe
controller and camera
FZ-SXCRB7018BR-4S
USB memory
FZ-MEM1G
VESA attachment
FZ-VESA
Desktop controller stand
FZ-DS
21
Ordering Information
FZ3 Series
Item
Descriptions
Dual-task,
High-grade,
High-speed
Controllers
Dual-task,
High-speed
Controllers
Controllers
High-grade,
High-speed
Controllers
High-grade
Controllers
Controllers integrated
with LCD
Box-type controllers
Controllers integrated
with LCD
Box-type controllers
Controllers integrated
with LCD
Box-type Controllers
Controllers integrated
with LCD
Box-type Controllers
High-speed
Controllers
Controllers integrated
with LCD
Box-type Controllers
Standard
Controllers
Controllers integrated
with LCD
Box-type Controllers
Model
Two-camera controllers
NPN/PNP
FZ3-H900/FZ3-H905
Four-camera controllers
NPN/PNP
FZ3-H900-10/FZ3-H905-10
Two-camera controllers
NPN/PNP
FZ3-H950/FZ3-H955
Four-camera controllers
NPN/PNP
FZ3-H950-10/FZ3-H955-10
Two-camera controllers
NPN/PNP
FZ3-900/FZ3-905
Four-camera controllers
NPN/PNP
FZ3-900-10/FZ3-905-10
Two-camera controllers
NPN/PNP
FZ3-950/FZ3-955
Four-camera controllers
NPN/PNP
FZ3-950-10/FZ3-955-10
Two-camera controllers
NPN/PNP
FZ3-H700/FZ3-H705
Four-camera controllers
NPN/PNP
FZ3-H700-10/FZ3-H705-10
Two-camera controllers
NPN/PNP
FZ3-H750/FZ3-H755
Four-camera controllers
NPN/PNP
FZ3-H750-10/FZ3-H755-10
Two-camera controllers
NPN/PNP
FZ3-H300/FZ3-H305
Four-camera controllers
NPN/PNP
FZ3-H300-10/FZ3-H305-10
Two-camera controllers
NPN/PNP
FZ3-H350/FZ3-H355
Four-camera controllers
NPN/PNP
FZ3-H350-10/FZ3-H355-10
Two-camera controllers
NPN/PNP
FZ3-700/FZ3-705
Four-camera controllers
NPN/PNP
FZ3-700-10/FZ3-705-10
Two-camera controllers
NPN/PNP
FZ3-750/FZ3-755
Four-camera controllers
NPN/PNP
FZ3-750-10/FZ3-755-10
Two-camera controllers
NPN/PNP
FZ3-300/FZ3-305
Four-camera controllers
NPN/PNP
FZ3-300-10/FZ3-305-10
Two-camera controllers
NPN/PNP
FZ3-350/FZ3-355
Four-camera controllers
NPN/PNP
FZ3-350-10/FZ3-355-10
Two-camera controllers
Lite Controllers
Box-type Controllers
Four-camera controllers
Cameras
NPN
FZ3-L350-10
PNP
FZ3-L355-10
Intelligent
cameras
Color
FZ-SLC100
Narrow field of vision
Color
FZ-SLC15
Autofocus
cameras
Wide field of vision
Color
FZ-SZC100
Narrow field of vision
Color
FZ-SZC15
Digital cameras 2 million pixels
5 million pixels
High-speed
cameras
(See note 1.)
Small digital
cameras
300,000-pixels
300,000-pixel
flat type
300,000-pixel
pen type
Monochrome
FZ-S
Color
FZ-SC
Monochrome
FZ-S2M
Color
FZ-SC2M
Monochrome
FZ-S5M2
Color
FZ-SC5M2
Monochrome
FZ-SH
Color
FZ-SHC
Monochrome
FZ-SF
Color
FZ-SFC
Monochrome
FZ-SP
Color
FZ-SPC
Wide View (long-distance) Color
Intelligent
Compact
Cameras
With touch pen
--With touch pen
--With touch pen
--With touch pen
--With touch pen
--With touch pen
---
---
Camera + Zoom, Autofocus Lens + Intelligent Lighting
Camera + Zoom, Autofocus Lens
Lens required
CCTV lens required
FZ-SQ100F
Wide View (short-distance) Color
FZ-SQ100N
Standard
Color
FZ-SQ050F
Narrow view
Color
FZ-SQ010F
---
Wide field of vision
FZ-SLC100-DL
---
Narrow field of vision
FZ-SLC15-DL
---
3Z4S-LE Series
---
FZ-LEH5/LEH8/LEH12/LEH16/
LEH25/LEH35/LEH50/LEH75/
LEH100
Low distortion lens for 2-million pixel cameras and 5
million-pixel cameras
Lenses for small camera
FZ-LES3/LES6/LES16/LES30
Lens for 300,000-pixel small cameras
Extension Tubes for small camera
FZ-LESR
Extension Tubes for 300,000-pixel small cameras
FZ-SXCRB7018BR-4S
Integrated unit combining special Halation cut
illumination, strobe controller and camera (without lens)
FZ-LTCRB7018BR-4S
Integrated unit combining special Halation cut
illumination and strobe controller
Intelligent camera diffusion plate
CCTV Lenses
Cameras peripheral devices
FZ3-L350
FZ3-L355
Wide field of vision
300,000 pixels
Extension Tubes
Low-distortion Lenses
Halation cut illumination
For Intelligent Compact Camera
22
NPN
PNP
Remarks
FZ-LTRB7018BR-4S
Special Halation cut illumination only
Mounting brackets
FQ-XL
---
Polarizing Filter Attachment
FQ-XF1
---
Cables
Item
Model
Remarks
Camera Cable
Descriptions
FZ-VS
Cable length: 2 m, 5 m, or 10 m (See note 3.)
Bend resistant Camera Cables
FZ-VSB
Cable length: 2 m, 5 m, or 10 m (See note 4.)
Right-angle Camera Cable (See note 2.)
FZ-VSL
Cable length: 2 m, 5 m, or 10 m (See note 3.)
Long-distance camera cable
FZ-VS2
Cable length: 15 m (See note 5.)
Long-distance right-angle camera cable
FZ-VSL2
Cable length: 15 m (See note 5.)
Cable extension unit
FZ-VSJ
Up to two Extension Units and three Cables can be connected.
(Maximum cable length: 45 m (See note 6.))
Monitor cable
FZ-VM
Cable length: 2 m or 5 m
Peripheral
devices
Parallel cable
LCD monitor
FZ-VP
Cable length: 2 m or 5 m
FZ-VPX (See note 7.)
Cable length: 2 m or 5 m, Connector-type
FZ-M08
For Box-type Controllers
FZ-MEM1G
Capacity: 1 GB
VESA attachment
FZ-VESA
For installing the LCD integrated-type controller
Desktop controller stand
FZ-DS
For installing the LCD integrated-type controller
---
Recommended Products (Optical Mouse)
• Microsoft Corporation: Compact Optical Mouse, U81 Series
USB memory
1GB
Mouse
3Z4S-LT Series
External Lighting
FZ-LT Series
---
FL Series
Manufactured by MORITEX Corporation
3Z4S-LT MLEK-C100E1TS2
For 3Z4S-LT Series
Strobe Controller
Lighting Controller
One channel
Required to control external
lighting from a Controller
FZ-LTA100
For FZ-LT Series
FZ-LTA200
For FL Series
Two channels
FL-TCC1
---
Note 1: High-speed camera is supported by firmware Ver. 3.21 or later. Please consult your OMRON representative.
2: This Cable has an L-shaped connector on the Camera end.
3: The 10-m cable cannot be used for the intelligent camera, autofocus camera and 5 million-pixel camera.
4: The 10-m cable cannot be used for the intelligent camera, autofocus camera 2 million-pixel camera and 5 million-pixel camera.
5: The 15-m cable cannot be used for the intelligent camera, autofocus camera and 5 million-pixel camera.
6: The maximum cable length depends on the Camera being connected, and the model and length of the Cable being used.For further information, please refer to the "Cameras / Cables" table in Page 27.
7: Connector-Terminal Block Conversion Units can be connected (Recommended Products: OMRON XW2B-50G4/50G5, XE2D-50G6).
System configuration
Controllers integrated with LCD
Box-type Controllers
PC
RS-232C
connected
Input device
Camera connected
Parallel I/O
Mouse
PLC
Ethernet
USB connection
Analogue RGB
PC
RGB monitor
Ethernet
Camera connecter
Analogue RGB
RS-232C connected
USB
connection
Input device
Mouse
USB connection
PLC
Input device
Mouse
Lenses
High-resolution, Low-distortion Lenses
Model
FZ-LEH5
FZ-LEH8
FZ-LEH12
FZ-LEH16
Lenses for small camera
FZ-LEH25
Appearance
42 dia.
Focal length
Brightness
Filter size
RGB monitor
Parallel I/O
Touch pen (accessory attached)
38.7
34 dia.
41.6
37.0
12.5mm
8mm
5mm
34 dia.
33 dia.
36.5
FZ-LEH50
FZ-LEH75
FZ-LEH100
39.5
36.5
34 dia.
55.0
36 dia.
51.0
FZ-LES3
12 dia.
70.0
42 dia.
100mm
75mm
50mm
35mm
25mm
Model
FZ-LES6
FZ-LES16
FZ-LES30
Appearance
34 dia.
33 dia.
16mm
FZ-LEH35
F2.8
F1.4
F1.4
F1.4
F1.4
F2
F2.8
F2.5
F2.8
M40.5
P0.5
M27.0
P0.5
M27.0
P0.5
M27.0
P0.5
M27.0
P0.5
M27.0
P0.5
M27.0
P0.5
M34.0
P0.5
M40.5
P0.5
3Z4S-LE
ML-2514
3Z4S-LE
ML-3519
3Z4S-LE
ML-5018
3Z4S-LE
ML-7527
16.4
12 dia.
19.7
12 dia.
23.1
12 dia.
25.5
Focal length
3mm
6mm
16mm
30mm
Brightness
F2.0
F2.0
F3.4
F3.4
The 5-mm Extension Tubes (3Z4S-LE ML-EXR) cannot be used with FZ-LEH25 Lenses.
Extension Tubes
CCTV Lenses
Model
3Z4S-LE
ML-0614
3Z4S-LE
ML-0813
3Z4S-LE
ML-1214
3Z4S-LE
ML-1614
3Z4S-LE
ML-10035
Appearance
30 dia.
30
30 dia.
34.5
30 dia.
34.5
30 dia.
24.5
30 dia.
24.5
30 dia.
8mm
12mm
16mm
25mm
35mm
29
32 dia.
50mm
37
32 dia.
75mm
42.5
Model
Contents
32 dia.
43.9
Focal length
6mm
100mm
Brightness
F1.4
F1.3
F1.4
F1.4
F1.4
F1.9
F1.8
F2.7
F3.5
Filter size
M27
P0.5
M25.5
P0.5
M27
P0.5
M27
P0.5
M27
P0.5
M27
P0.5
M30.5
P0.5
M30.5
P0.5
M30.5
P0.5
•Do not use the 0.5-mm, 1.03Z4S-LE ML-EXR
mm, and 2.0-mm Extension
Set of 7 tubes(40 mm, 20 mm, Tu b e s a t t a c h e d t o e a c h
other. Since these Extension
10 mm, 5 mm, 2.0 mm,
Tubes are placed over the
1.0 mm, and 0.5 mm)
threaded section of the Lens
Maximum outer diameter:
or other Extension Tube, the
30 mm dia.
Extension Tubes for small camera
Model
Contents
FZ-LESR
Set of 3 tubes(15 mm,
10 mm, 5 mm)
Maximum outer diameter:
12 mm dia.
connection may loosen when
more than one 0.5-mm, 1.0mm or 2.0-mm Extension Tube
are used together.
•R e i n f o r c e m e n t m a y b e
required for combinations of
Extension Tubes exceeding 30
mm if the Camera is subject
to vibration.
23
R a t i n g s a n d S p e c i fi c a t i o n s (Controllers)
Dual-task, High-grade, High-speed Controllers and Dual-task, High-speed Controllers
Model
NPN Output
FZ3-900
FZ3-900-10
FZ3-H900
FZ3-H900-10
FZ3-950
FZ3-950-10
FZ3-H950
FZ3-H950-10
PNP Output
FZ3-905
FZ3-905-10
FZ3-H905
FZ3-H905-10
FZ3-955
FZ3-955-10
FZ3-H955
FZ3-H955-10
2
4
2
4
Connected Camera
Please refer to the "Camera Connection" table in Page 28.
No. of Cameras
Processing
resolution
2
4
When connected to a intelligent compact camera
752(H)×480(V)
When connected to a 300,000-pixel camera
640(H)×480(V)
When connected to a 2 million-pixel camera
1600(H)×1200(V)
When connected to a 5 million-pixel camera
2448(H)×2044(V)
No. of scenes
2
4
32
Connected to 1 camera
214
When connected to Connected to 2 cameras 107
a intelligent compact
Connected to 3 cameras 71
camera
Connected to 4 cameras 53
Connected to 1 camera
When connected to
a 300,000-pixel
camera
Color camera: 250, Monochrome Camera: 252
Connected to 2 cameras Color camera: 125, Monochrome Camera: 126
Connected to 3 cameras Color camera: 83, Monochrome Camera: 84
Connected to 4 cameras Color camera: 62, Monochrome Camera: 63
Number of logged
images (See note 1.)
Connected to 1 camera
When connected to
a 2 million-pixel
camera
Color camera: 40, Monochrome Camera: 40
Connected to 2 cameras Color camera: 20, Monochrome Camera: 20
Connected to 3 cameras Color camera: 13, Monochrome Camera: 13
Connected to 4 cameras Color camera: 10, Monochrome Camera: 10
Connected to 1 camera
When connected to
a 5 million-pixel
camera
Color camera: 15, Monochrome Camera: 15
Connected to 2 cameras Color camera: 7, Monochrome Camera: 7
Connected to 3 cameras Color camera: 5, Monochrome Camera: 5
Connected to 4 cameras Color camera: 3, Monochrome Camera: 3
Operation
Touch pen, mouse, etc.
Settings
Create series of processing steps by editing the flowchart (Help messages provided).
Mouse or similar device
Serial communications
RS-232C/422A:1CH
Network communications
Ethernet 100BASE-TX/10BASE-T
EtherNet/IP communications
Ethernet port baud rate: 100 Mbps (100Base-TX)
Parallel I/O
(When used in Multi-line random-trigger mode) 17 inputs (RESET, STEP0/ENCTRIG_Z0, STEP1/ENCTRIG_Z1, DSA0 to
1, ENCTRIG_A0 to 1, ENCTRIG_B0 to 1, DI0 to 7), 29 outputs (RUN/BUSY1, BUSY0, GATE0 to 1, OR0 to 1, READY0 to 1,
ERROR, STGOUT0 to 3, DO0 to 15) (When used in other mode) 13 inputs (RESET, STEP0/ENCTRIG_Z0, DSA0, ENCTRIG_A0,
ENCTRIG_B0, DI0 to 7), 26 outputs (RUN, BUSY0, GATE0, OR0, READY0, ERROR, STGOUT0 to 3, DO0 to 15)
Monitor interface
Integrated Controller and LCD 12.1 inch TFT color LCD
(Resolution: XGA 1,024 × 768 dots)
USB interface
4 channels (supports USB 1.1 and 2.0)
Power supply voltage
When connected to a intelligent compact camera
Current
consumption
(at 24.0 VDC)
(See note 3.)
When connected to a intelligent or autofocus camera
Analog RGB video output, 1 channel
(Resolution: XGA 1,024 × 768 dots)
20.4 to 26.4 VDC
5 A max.
7.5 A max.
5 A max.
7.5 A max.
5 A max.
7.5 A max.
5 A max.
7.5 A max.
3.7 A max.
4.9 A max.
3.7 A max.
4.9 A max.
3.7 A max.
4.9 A max.
3.7 A max.
4.9 A max.
When connected to a 300,000-pixel camera
When connected to a 2 million-pixel camera
When connected to a 5 million-pixel camera
Ambient temperature range
Operating: 0 to 45°C, 0 to 50°C (See note 2.), Storage: −20 to 65°C (with no icing or condensation)
Ambient humidity range
Operating and storage: 35% to 85% (with no condensation)
Weight
Approx. 3.2 kg
Accessories
Touch pen (one, inside the front panel), Please Read
First, Instruction Manual (Setup), 6 mounting brackets
Approx. 3.4 kg
Approx. 3.2 kg
Approx. 3.4 kg
Approx. 1.8 kg
Approx. 1.9 kg
Approx. 1.8 kg
Approx. 1.9 kg
Please Read First, Instruction Manual (Setup)
Note 1: The image logging capacity changes when multiple cameras of different types are connected at the same time.
2: The operation mode can be changed on the controller menu.
3: The current consumption when the maximum number of cameras supported by each controller are connected. If a strobe controller model is connected to a lamp, the current consumption is as high as when an intelligent camera is connected.
24
High-grade, High-speed Controllers and High-speed Controllers
Model
NPN Output
FZ3-700
FZ3-700-10
FZ3-H700
FZ3-H700-10
FZ3-750
FZ3-750-10
FZ3-H750
FZ3-H750-10
PNP Output
FZ3-705
FZ3-705-10
FZ3-H705
FZ3-H705-10
FZ3-755
FZ3-755-10
FZ3-H755
FZ3-H755-10
2
4
2
4
Connected Camera
Please refer to the "Camera Connection" table in Page 28.
No. of Cameras (See note 1.)
Processing
resolution
2
4
When connected to a intelligent compact camera
752(H)×480(V)
When connected to a 300,000-pixel camera
640(H)×480(V)
When connected to a 2 million-pixel camera
1600(H)×1200(V)
When connected to a 5 million-pixel camera
2448(H)×2044(V)
No. of scenes
2
4
32
Connected to 1 camera
214
When connected to Connected to 2 cameras 107
a intelligent compact
Connected to 3 cameras 71
camera
Connected to 4 cameras 53
Connected to 1 camera
Number of logged
images (See note
2.)
When connected to
a 300,000-pixel
camera
Color camera: 250, Monochrome Camera: 252
Connected to 2 cameras Color camera: 125, Monochrome Camera: 126
Connected to 3 cameras Color camera: 83, Monochrome Camera: 84
Connected to 4 cameras Color camera: 62, Monochrome Camera: 63
Connected to 1 camera
When connected to
a 2 million-pixel
camera
Color camera: 40, Monochrome Camera: 40
Connected to 2 cameras Color camera: 20, Monochrome Camera: 20
Connected to 3 cameras Color camera: 13, Monochrome Camera: 13
Connected to 4 cameras Color camera: 10, Monochrome Camera: 10
When connected to
a 5 million-pixel camera
Connected to 1 camera
Color camera: 11, Monochrome Camera: 11
Connected to 2 cameras Color camera: 5, Monochrome Camera: 5
Operation
Touch pen, mouse, etc.
Settings
Create series of processing steps by editing the flowchart (Help messages provided).
Mouse or similar device
Serial communications
RS-232C/422A:1CH
Network communications
Ethernet 100BASE-TX/10BASE-T
EtherNet/IP communications
Ethernet port baud rate: 100 Mbps (100Base-TX)
Parallel I/O
11 inputs (RESET, STEP, DSA, and DI 0 to 7), 26 outputs (RUN, BUSY, GATE, OR, READY, ERROR, STGOUT 0 to 3, and DO 0 to 15)
Monitor interface
Integrated Controller and LCD 12.1 inch TFT color LCD
(Resolution: XGA 1,024 × 768 dots)
USB interface
4 channels (supports USB 1.1 and 2.0)
Power supply voltage
When connected to a intelligent compact camera
Current
consumption
(at 24.0 VDC)
(See note 4.)
When connected to a intelligent or autofocus camera
Analog RGB video output, 1 channel
(Resolution: XGA 1,024 × 768 dots)
20.4 to 26.4 VDC
5 A max.
7.5 A max.
5 A max.
7.5 A max.
5 A max.
7.5 A max.
5 A max.
7.5 A max.
3.7 A max.
4.9 A max.
3.7 A max.
4.9 A max.
3.7 A max.
4.9 A max.
3.7 A max.
4.9 A max.
When connected to a 300,000-pixel camera
When connected to a 2 million-pixel camera
When connected to a 5 million-pixel camera
Ambient temperature range
Operating: 0 to 45°C, 0 to 50°C (See note 3.), Storage: −20 to 65°C (with no icing or condensation)
Ambient humidity range
Operating and storage: 35% to 85% (with no condensation)
Weight
Approx. 3.2 kg
Accessories
Touch pen (one, inside the front panel), Please Read First,
Instruction Manual (Setup), 6 mounting brackets
Approx. 3.4 kg
Approx. 3.2 kg
Approx. 3.4 kg
Approx. 1.8 kg
Approx. 1.9 kg
Approx. 1.8 kg
Approx. 1.9 kg
Please Read First, Instruction Manual (Setup)
Note 1: When connecting 5 million-pixel cameras, up to two cameras can be connected.
2: The number of logged images will vary when connecting multiple Cameras with different models.
3: The operating mode can be switched from the Controller Menu settings.
4: When the strobe controller is connected to the lights, the controller uses power as much as it does when connected to the intelligent camera.
5: Do not install the firmware for FZ2 in any High Grade High Speed or High Grade controller of the FZ3 series. It will lead to the failure of the controller. For software download, please contact your Omron representative.
25
High-grade Controllers and Standard Controllers
NPN Output
PNP Output
Model
Connected Camera
No. of Cameras
Processing
resolution
When connected to a intelligent compact camera
When connected to a 300,000-pixel camera
When connected to a 2 million-pixel camera
No. of scenes
Connected to 1 camera
When connected to Connected to 2 cameras
a intelligent compact
Connected to 3 cameras
camera
Connected to 4 cameras
Connected to 1 camera
Number of logged When connected to Connected to 2 cameras
images (See note a 300,000-pixel
Connected to 3 cameras
1.)
camera
Connected to 4 cameras
Connected to 1 camera
When connected to Connected to 2 cameras
a 2 million-pixel
Connected to 3 cameras
camera
Connected to 4 cameras
Operation
Settings
Serial communications
Network communications
EtherNet/IP communications
Parallel I/O
Monitor interface
USB interface
Power supply voltage
When connected to a intelligent compact camera
Current consumption When connected to a intelligent or autofocus camera
(at 24.0 VDC)
When connected to a 300,000-pixel camera
(See note 3.)
When connected to a 2 million-pixel camera
Ambient temperature range
Ambient humidity range
Weight
Accessories
FZ3-300
FZ3-300-10
FZ3-H300
FZ3-H300-10
FZ3-350
FZ3-350-10
FZ3-305
FZ3-305-10
FZ3-H305
FZ3-H305-10
FZ3-355
FZ3-355-10
Please refer to the "Camera Connection" table in Page 28.
2
4
2
4
2
4
752(H)×480(V)
640(H)×480(V)
1600(H)×1200(V)
32
214
107
71
53
Color camera: 250, Monochrome Camera: 252
Color camera: 125, Monochrome Camera: 126
Color camera: 83, Monochrome Camera: 84
Color camera: 62, Monochrome Camera: 63
Color camera: 40, Monochrome Camera: 40
Color camera: 20, Monochrome Camera: 20
Color camera: 13, Monochrome Camera: 13
Color camera: 10, Monochrome Camera: 10
Touch pen, mouse, etc.
Mouse or similar device
Create series of processing steps by editing the flowchart (Help messages provided).
RS-232C/422A:1CH
Ethernet 100BASE-TX/10BASE-T
Ethernet port baud rate: 100 Mbps (100Base-TX)
11 inputs (RESET, STEP, DSA, and DI 0 to 7), 26 outputs
(RUN, BUSY, GATE, OR, READY, ERROR, STGOUT 0 to 3, and DO 0 to 15)
Connected Camera
No. of Cameras
Processing
resolution
When connected to a intelligent compact camera
When connected to a 300,000-pixel camera
When connected to a 2 million-pixel camera
No. of scenes
Connected to 1 camera
When connected to Connected to 2 cameras
a intelligent compact
Connected to 3 cameras
camera
Connected to 4 cameras
Connected to 1 camera
Number of logged When connected to Connected to 2 cameras
images
a 300,000-pixel
Connected to 3 cameras
(See note 1.)
camera
Connected to 4 cameras
Connected to 1 camera
When connected to Connected to 2 cameras
a 2 million-pixel
Connected to 3 cameras
camera
Connected to 4 cameras
Operation
Settings
Serial communications
Network communications
EtherNet/IP communications
Parallel I/O
Monitor interface
USB interface
Power supply voltage (See note 2.)
When connected to a intelligent compact camera
Current consumption When connected to a intelligent or autofocus camera
(at 24.0 VDC)
When connected to a 300,000-pixel camera
(See note 3.)
When connected to a 2 million-pixel camera
4
5 A max.
7.5 A max.
5 A max.
7.5 A max.
5 A max.
7.5 A max.
5 A max.
7.5 A max.
3.7 A max.
4.9 A max.
3.7 A max.
4.9 A max.
3.7 A max.
4.9 A max.
3.7 A max.
4.9 A max.
Operating: 0 to 45°C, 0 to 50°C (See note 2.), Storage: −20 to 65°C (with no icing or condensation)
Operating and storage: 35% to 85% (with no condensation)
Approx. 3.2 kg Approx. 3.4 kg Approx. 3.2 kg Approx. 3.4 kg Approx. 1.8 kg Approx. 1.9 kg Approx. 1.8 kg Approx. 1.9 kg
Touch pen (one, inside the front panel), Please Read First,
Please Read First, Instruction Manual (Setup)
Instruction Manual (Setup), 6 mounting brackets
FZ3-L350
FZ3-L350-10
FZ3-L355
FZ3-L355-10
Please refer to the "Camera Connection" table in Page 28.
2
4
752(H)×480(V)
640(H)×480(V)
1600(H)×1200(V)
32
214
107
71
53
Color camera: 250, Monochrome Camera: 252
Color camera: 125, Monochrome Camera: 126
Color camera: 83, Monochrome Camera: 84
Color camera: 62, Monochrome Camera: 63
Color camera: 40, Monochrome Camera: 40
Color camera: 20, Monochrome Camera: 20
Color camera: 13, Monochrome Camera: 13
Color camera: 10, Monochrome Camera: 10
Mouse, etc.
Create series of processing steps by editing the flowchart (Help messages provided).
RS-232C: 1CH
Ethernet 1000BASE-T/100BASE-TX/10BASE-T
Ethernet port baud rate: 100 Mbps (100Base-TX)
11 inputs (RESET, STEP, DSA, and DI 0 to 7), 26 outputs
(RUN, BUSY, GATE, OR, READY, ERROR, STGOUT 0 to 3, and DO 0 to 15)
Analog RGB video output, 1 channel
(Resolution: XGA 1,024 × 768 dots)
2 channels (supports USB 1.1 and 2.0)
20.4 to 26.4 VDC
4.0 A max.
5.5 A max.
2.6 A max.
2.9 A max.
Ambient temperature range
Operating: 0 to 50°C
Storage: −20 to 65°C (with no icing or condensation)
Ambient humidity range
Weight
Accessories
Operating and storage: 35% to 85% (with no condensation)
Approx.1.8kg
Instruction manual
Note 1: The number of images that can be logged will vary if different types of Camera are connected at the same time.
2: Do not ground the positive terminal of the 24-VDC power supply to a Lite Controller.
If the positive terminal is grounded, electrical shock may occur when an SG (0-V) part, such as the case of the Controller or Camera, is touched.
3: The current consumption is for when the maximum numbers of Cameras is connected to the Controller.
When lighting is connected through a Strobe Controller, the current consumption will be the same as when the Intelligent Camera is connected.
26
2
Analog RGB video output, 1 channel
(Resolution: XGA 1,024 × 768 dots)
Lite Controllers
NPN Output
PNP Output
FZ3-H350-10
FZ3-H355-10
Integrated Controller and LCD 12.1 inch TFT color LCD
(Resolution: XGA 1,024 × 768 dots)
4 channels (supports USB 1.1 and 2.0)
20.4 to 26.4 VDC
Note 1: The number of logged images will vary when connecting multiple Cameras with different models. 2: The operating mode can be switched from the Controller Menu settings.
3: When the strobe controller is connected to the lights, the controller uses power as much as it does when connected to the intelligent camera.
Model
FZ3-H350
FZ3-H355
R a t i n g s a n d S p e c i fi c a t i o n s (Cameras)
Intelligent cameras, autofocus cameras
Image elements
Color/Monochrome
Effective pixels
Pixel size
Shutter function
Partial function
Frame rate (image read time)
Field of vision (See note 2.)
Installation distance
LED class (See note 3.) (lighting)
Ambient temperature range
Ambient humidity range
Weight
Accessories
FZ-SLC100
FZ-SLC15
Interline transfer reading all pixels, 1/3-inch CCD image elements
Color
640(H)×480(V)
7.4(μm)×7.4(μm)
Electronic shutter; select shutter speeds from 1/10 to 1/50,000 s
12 to 480 lines
80fps(12.5ms)
13 to 100mm (See note1.)
2.9 to 14.9mm (See note1.)
70 to 190mm (See note1.)
35 to 55mm (See note1.)
Class 2
Operating: 0 to 50°C
Storage: −25 to 65°C (with no icing or condensation)
Operating and storage: 35% to 85% (with no condensation)
Approx. 670 g
Approx. 700 g
Instruction Sheet and hexagonal wrench
FZ-SZC100
FZ-SZC15
13 to 100mm (See note1.)
77.5 to 197.5mm (See note1.)
---
2.9 to 14.9mm (See note1.)
47.5 to 67.5mm
Approx. 500 g
Note 1: Tolerance: ±5% max. 2: The length of the visual field is the lengths along the Y axis. 3: Applicable standards: IEC 60825-1: 1993 + A1: 1997 + A2-2001, EN 60825-1: 1994 + A1: 2002 + A2: 2001
Digital cameras
FZ-S
FZ-SC
FZ-S2M
FZ-SC2M
Interline transfer reading all pixels, 1/3-inch CCD image elements Interline transfer reading all pixels, 1/1.8-inch CCD image elements
Monochrome
Color
Monochrome
Color
640(H)×480(V)
1600(H)×1200(V)
7.4(μm)×7.4(μm)
4.4(μm)×4.4(μm)
Electronic shutter; select shutter speeds from 1/10 to 1/50,000 s Electronic shutter; select shutter speeds from 1/10 to 1/50,000 s
12 to 480 lines
12 to 1200 lines
80fps(12.5ms)
30fps(33.3ms)
Selecting a lens according to the field of vision and installation distance
Operating: 0 to 40°C
Operating: 0 to 50°C
Ambient temperature range
Storage: −25 to 65°C (with no icing or condensation)
Storage: −25 to 65°C (with no icing or condensation)
Ambient humidity range
Operating and storage: 35% to 85% (with no condensation)
Weight
Approx.55g
Approx. 76g
Accessories
Instruction manual
Image elements
Color/Monochrome
Effective pixels
Pixel size
Shutter function
Partial function
Frame rate (image read time)
Field of vision, installation distance
FZ-S5M2
FZ-SC5M2
Interline transfer reading all pixels, 2/3-inch CCD image elements
Monochrome
Color
2448(H)×2044(V)
3.45(μm)×3.45(μm)
Electronic shutter; select shutter speeds from 1/10 to 1/50,000 s
12 to 2044 lines
16fps(62.5ms)
Operating: 0 to 40°C
Storage: −25 to 65°C (with no icing or condensation)
Approx.140g
High-speed cameras
Small digital cameras
FZ-SF
FZ-SFC
FZ-SP
FZ-SPC
Image elements
Interline transfer reading all pixels, 1/3-inch CCD image elements
Color/Monochrome
Monochrome
Color
Monochrome
Color
Effective pixels
640(H)×480(V)
Pixel size
7.4(μm)×7.4(μm)
Shutter function
Electronic shutter; select shutter speeds from 1/10 to 1/50,000 s
Partial function
12 to 480 lines
Frame rate (image read time) 80fps(12.5ms)
Field of vision, installation distance Selecting a lens according to the field of vision and installation distance
Image elements
Color/Monochrome
Effective pixels
Pixel size
Shutter function
Partial function
Frame rate (image read time)
Field of vision, installation distance
Operating: 0 to 50°C (camera amp) Operating: 0 to 50°C (camera amp)
Ambient temperature range 0 to 45°C (camera head)
0 to 45°C (camera head)
Storage: −25 to 65°C (with no icing or condensation) Storage: −25 to 65°C (with no icing or condensation)
Operating: 0 to 40°C
Ambient temperature range Storage: −25 to 65°C
(with no icing or condensation)
Ambient humidity range
Weight
Accessories
Operating and storage: 35% to 85%
(with no condensation)
Approx.150g
Instruction manual, installation bracket,
Four mounting brackets(M2)
Operating and storage: 35% to 85%
(with no condensation)
Approx.150g
Instruction manual
FZ-SH
FZ-SHC
Interline transfer reading all pixels, 1/3-inch CCD image elements
Monochrome
Color
640(H)×480(V)
7.4(μm)×7.4(μm)
Electronic shutter; select shutter speeds from 1/10 to 1/50,000 s
12 to 480 lines
204fps(4.9ms)
Selecting a lens according to the field of vision and installation distance
Weight
Operating and storage: 35% to 85%
(with no condensation)
Approx.105g
Accessories
Instruction manual
Ambient humidity range
Intelligent compact cameras
Image elements
Color/Monochrome
Effective pixels
Pixel size
Shutter function
Partial function
Frame rate (image read time)
Field of vision
Installation distance
LED class
Ambient temperature range
Ambient humidity range
Weight
Accessories
FZ-SQ010F
FZ-SQ050F
FZ-SQ100F
1/3-inch CMOS image elements
Color
752(H)×480(V)
6.0(μm)×6.0(μm)
1/250 to 1/32,258
8 to 752 lines
60fps
7.5×4.7 to 13×8.2mm
13×8.2 to 53×33mm
53×33 to 240×153mm
38 to 60mm
56 to 215mm
220 to 970mm
Class 2
Operating: 0 to 50°C
Storage: −25 to 65°C
Operating and storage: 35% to 85% (with no condensation)
Approx. 150 g
Approx. 140 g
Mounting bracket(FQ-XL), polarizing filter attachment(FQ-XF1), instruction manual and warning label
FZ-SQ100N
29×18 to 300×191mm
32 to 380mm
27
R a t i n g s a n d S p e c i fi c a t i o n s (LCD
Monitor,Cable)
LCD Monitor
Cable Extension Unit
FZ-M08
Size
8.4 inches
Type
Liquid crystal color TFT
Resolution
1,024 × 768 dots
Input signal
Analog RGB video input, 1 channel
Power supply voltage 21.6 to 26.4 VDC
Current consumption Approx. 0.7 A max.
Ambient temperature range Operating: 0 to 50°C Storage: −25 to 65°C (with no icing or condensation)
Ambient humidity range Operating and storage: 35 to 85% (with no condensation)
Weight
Approx. 1.2 kg
Accessories
Instruction Sheet and 4 mounting brackets
Power supply voltage
(See note 1.)
Current consumption
(See note 2.)
Ambient temperature range
Ambient humidity range
Maximum Units connectable
Weight
Accessories
Camera Cables
Shock resistiveness
(durability)
Ambient temperature range
Ambient humidity range
Ambient atmosphere
Material
Minimum bending radius
Weight
FZ-VS (2m)
FZ-VSB(2m)
FZ-VSL(2m)
10 to 150Hz single amplitude 0.15mm 3 directions, 8 strokes,
4 times
Operation and storage: 0 to +65°C (with no icing or condensation)
Operation and storage: 40 to 70%RH (with no condensation)
No corrosive gases
Cable sheath, connector: PVC
69mm
81mm
69mm
approx.170g
approx.220g
approx.170g
Monitor Cable
Vibration resistiveness
Ambient temperature range
Ambient humidity range
Ambient atmosphere
Material
Minimum bending radius
Weight
FZ-VM
10 to 150Hz single amplitude 0.15mm 3 directions, 8 strokes, 4 times
Operation: 0 to +50°C; Storage: −20 to +65°C (with no icing or condensation)
Operation and storage: 35 to 85%RH (with no condensation)
No corrosive gases
Cable sheath: heat-resistant PVC Connector: PVC
75mm
approx.170g
Halation cut illumination
General specifications
Current consumption
Vibration resistance
Impact resistance
Ambient temperature
Ambient humidity
Ambient atmosphere
Protective structure
Material
Weight including cables
FZ-SXC RB7018BR-4S FZ-LTC RB7018BR-4S FZ-LT RB7018BR-4S
18 W or less (12 VDC, 1.5 A max.) (including camera and strobe controller)
10 to 150Hz single amplitude 0.35mm (maximum acceleration
50m/s2) 3 directions, 8 strokes, 10 times
150m/s2 6 directions, 3 times
Operating: 0 to 50°C Storage: -25 to 60°C (with no icing or condensation)
Operation and storage: 35 to 85%RH (with no condensation)
No corrosive gases
IEC60259 IP20
Case: zinc-coated steel plate Cover: acrylic board
Clasp: stainless steel plate
Approx. 600 g
Approx. 500 g
Approx. 400 g
FZ-VSJ
11.5 to 13.5 VDC
1.5 A max.
Operating: 0 to 50°C Storage: −25 to 65°C (with no icing or condensation)
Operating and storage: 35 to 85% (with no condensation)
2 Units per Camera
Approx. 240 g
Instruction Sheet and 4 mounting screws
Note 1: A 12-VDC power supply must be provided to the Cable Extension Unit when connecting the
Intelligent camera, the Autofocus camera, the Intelligent Compact Camera, the Strobe controller,
or the Lighting Controller.
2: The current consumption shows when connecting the Cable Extension Unit to an external power
supply.
Long-distance Camera Cables
Shock resistiveness
(durability)
Ambient temperature range
Ambient humidity range
Ambient atmosphere
Material
Minimum bending radius
Weight
FZ-VS2 (15m)
FZ-VSL2(15m)
10 to 150Hz single amplitude 0.15mm 3 directions, 8 strokes,
4 times
Operation and storage: 0 to +65°C (with no icing or condensation)
Operation and storage: 40 to 70%RH (with no condensation)
No corrosive gases
Cable sheath, connector: PVC
93mm
approx.1600g
Parallel Cable
Vibration resistiveness
Ambient temperature range
Ambient humidity range
Ambient atmosphere
Material
Minimum bending radius
Weight
FZ-VP
FZ-VPX
10 to 150Hz single amplitude 0.15mm 3 directions, 8 strokes, 4 times
Operation: 0 to +50°C; Storage: −20 to +65°C (with no icing or condensation)
Operation and storage: 35 to 85%RH (with no condensation)
No corrosive gases
Cable sheath: heat-resistant PVC Connector: resin
75mm
approx.160g
approx.180g
Illumination specifications
Specifications
Blue LED (wavelength: Approx. 470nm)
Source
Red LED (wavelength: 630nma)
Illumination system
8 blocks luminous intensity variable illumination
5,000 hours (Time it takes from manufacture for a 50% reduction
Average lifetime
in luminous intensity at an ambient temperature of 25°C,
maximum brightness, and continuous illumination.)
C o n n e c t i o n Ta b l e
Camera Connection Table
Type of
camera
Model
FZ-SLC100
FZ-SLC15
FZ-SZC100
FZ-SZC15
FZ-SC
FZ-S
FZ-SC2M
Digital
cameras
FZ-S2M
FZ-SC5M2
FZ-S5M2
High-speed FZ-SHC
cameras
FZ-SH
FZ-SFC
Small digital FZ-SF
cameras
FZ-SPC
FZ-SP
FZ-SQ010F
Intelligent FZ-SQ050F
compact
FZ-SQ100F
cameras
FZ-SQ100N
Intelligent
cameras
Autofocus
cameras
Resolution
Lite Controllers
(FZ3-L35 ,
FZ3-L35 -10)
Standard
Controllers
,
(FZ3-3
-10)
FZ3-3
High-grade
Controllers
,
(FZ3-H3
-10)
FZ3-H3
300,000 Pixels
300,000 Pixels
300,000 Pixels
300,000 Pixels
300,000 Pixels
300,000 Pixels
2 million pixels
2 million pixels
5 million pixels
5 million pixels
300,000 Pixels
300,000 Pixels
300,000 Pixels
300,000 Pixels
300,000 Pixels
300,000 Pixels
360,000 Pixels
360,000 Pixels
360,000 Pixels
360,000 Pixels
High-speed
Controllers
,
(FZ3-7
FZ3-7
-10)
(See note1.)
(See note1.)
High-grade, Highspeed Controllers
(FZ3-H7 ,
-10)
FZ3-H7
Dual-task, High-speed Dual-task, High-grade,
Controllers
High-speed Controllers
(FZ3-H9
,
(FZ3-H9
,
-10)
-10)
FZ3-H9
FZ3-H9
(See note1.)
(See note1.)
Note 1: When connecting 5 million-pixel cameras, up to two cameras can be connected.
Cameras / Cables Connection Table
Type of camera
Model
Camera Cables
FZ-VS
Right-angle camera cables FZ-VSL
Bend resistant camera
cables
FZ-VSB
Long-distance camera cable FZ-VS2
Long-distance right-angle
FZ-VSL2
camera cable
28
Cable length
2m
5m
10m
2m
5m
10m
15m
Intelligent cameras
Autofocus cameras
High-speed
cameras
300,000-pixel
Digital cameras
2 million-pixel
5 million-pixel
Small digital cameras Intelligent compact
Pen type / flat type cameras
Processing Items
*The items in red are High Grade processing items.
Group
Inspections /
Measurement
Icon
Processing Item
Search
Used to identify the shapes and calculate
the position of measurement objects.
Flexible
Search
Recognizing the shapes of workpieces
with variation and detecting their positions.
Icon
Processing Item
Backgrond
Suppression
Color
Gray
Filter
Extract
Color
Filter
P16
To enhance contrast of images by
extracting color in specified brightness.
Corresponding
Page in the
Catalog
P14
Color image is converted into monochrome
images to emphasize specific color.
Character
Inspection
Date
Verification
Reading character string is verified with
internal date.
P17
Wait
Processing is stopped only at the set time.
The standby time is set by the unit of [ms].
Model
Dictionary
Register character pattern as dictionary.
The pattern is used in [Character
Inspection].
P17
Focus
Focus setting is supported.
P19
Barcode+ Recognize barcode, verify and output
(See note 1) decoded characters.
P17
Iris
Focus and aperture setting is supported.
P19
2DCode+ Recognize 2D code, verify and output
(See note 2) decoded characters.
P17
Conditional
Branch
Used where more than two kinds of
products on the production line need to
detected separately.
End
This ProcItem must be set up as the last
processing unit of a branch.
ECM
Search
Ec Circle
Search
Shape
Search+
Classification
Edge
Position
Edge
Pitch
Scan Edge
Position
Scan Edge
Width
Color
Data
Gravity
and Area
Labeling
Label
Data
Labeling+
Defect
PreciseDefect
Fine
Matching
Circle
Angle
Camera
Image Input
Correcting
images
Group
Search a small difference by dividing the
search model in detail, and calculating the
correlation.
Used to search the similar part of model
form input image.Detect the evaluation
value and position.
Extract circles using "round " shape
information and get position, radius and
quantity in high preciseness.
Used to Search the similar part of models
from input image.Defect the evaluation
value and position.
Used when various kinds of products on
the assembly line need to be sorted and
identified.
Measure position of measurement
objects according to the color change in
measurement area.
Detect edges by color change in
measurement area. Used for calculating
number of pins of IC and connectors.
Measure peak/bottom edge position of
workpieces according to the color change
in separated measurement area.
Measure max/min/average width of
workpieces according to the color change
in separated measurement area.
Used for detecting presence and mixed
varieties of products by using color
average and deviation.
Used to measure area, center of gravity
of workpices by extracting the color to be
measured.
Used to measure number, area and gravity
of workpieces by extracting registered
color.
Selecting one region of extracted Labeling,
and get that measurement. Area and
Gravity position can be got and judged.
Extract objects of registered color, and
measure many features such as number
and circularity.
Used for appearance measurement of
plain-color measurement objects such as
defects, stains and burrs.
Check the defect on the object.
Parameters for extraction defect can be
set precisely.
Difference can be detected by overlapping
and comparing(matching) registered fine
images with input images.
Recognize character according correlation
search with model image registered in
[Model Dictionary].
Sensitive
Search
Image
Capturing
Corresponding
Page in the
Catalog
P16
Camera
Image Input
HDR
Camera
HDR function for FZ-SQ Intelligent
Image Input
Compact Cameras.
HDR Lite
To switch the cameras used for
Camera
measurement. Not input images from
Switching
cameras again.
Measurement To switch the images used for
Image
measurement. Not input images from
Switching
camera again.
Used when positions are differed. Correct
Position
measurement is performed by correcting
Compensation
position of input images.
Trapezoidal
Correction+
Rectify the trapezoidal deformed image.
Filtering
Used for processing images input from
cameras in order to make them easier to
be measured.
P14
Anti Color To remove the irregular color/pattern by
Shading
uniformizing max.2 specified colors.
P14
P16
Stripes
Removal
Filter+
Remove the background pattern of stripes.
P13
P16
Halation
Cut+
Remove halation from input image.
P13
Panorama+
Combine multiple image to create one big
image.
P12
Correcting
images
Rectify the image by polar transformation.
Polar
Useful for OCR or pattern inspection
Transformation
printed on circle.
Used when using the judge results and
Calculation measured values of ProcItem which are
registered in processing units.
P14
P16
Line
Regression
Used for calculating regression line from
plural measurement coodinate.
P17
P16
Circle
Regression
Used for calculating regression circle from
plural measurement coordinate.
P17
Calibration+
Transform (X,Y) position to the real
coodinate system.
P17
Set Unit
Data
Get Unit
Data
Used to change the ProcItem data (setting
parameters,etc.) that has been set up in a
scene.
Used to get one data
(measured results, setting parameters,etc.)
of ProcItem that has been set up in a
scene.
Set Unit
Figure
Used for re-setting the figure data (model,
measurement area ) registered in an unit.
Get Unit
Figure
Used for get the figure data (model,
measurement area ) registered in an unit.
P15
Trend
Monitor
Used for displaying the information about
results on the monitor, facilitating to avoid
NG and analyze causes.
P15
Image
Logging
Used for saving the measurement images
to the memory and USB memory.
P15
Data
Logging
Used for saving the measurement data to
the memory and USB memory.
P17
Elapsed
Time
Used for calculating the elapsed time
since the measurement trigger input.
P14
Used for calculating angle of inclination of
circular measurement objects.
To input images from cameras. And set
up the conditions to input images from
cameras.
Create high-dynamic range images by
acquiring several images with different
conditions.
Convert color image to color extracted
image or binary image.
Assisting
inspections /
measurement
Branching
processing
Same as ProcItem "Branch". But you
can change the targets of conditional
branching via external inputs.
Used when you need to output data to the
Data
external devices such as PLC or PC via
Output
serial ports.
Parallel
Used when you need to output data to the
Data
external devices such as PLC or PC via
Output
parallel ports.
Parallel
Used when you need to output judgement
Judgement results to the external devices such as
Output
PLC or PC via parallel ports.
Fieldbus
Outputs data to an external device, such
Data
as a Programmable Controller, through a
Output
fieldbus interface.
DI
Branch
P8
Outputting
results
Result
Display
P12
Displaying
results on
the monitor
Display
Image
File
Display
Last NG
Image
P19
Used for displaying the texts or the figures
in the camera image .
Display selected image file.
Display the last NG images.
P19
Note 1 : Bar Codes that can be read : JAN/EAN/UPC (including add-on codes), Code 39, Codabar (NW-7), ITF (Interleaved 2 of 5),Code 93, Code 128, GS1-128, GS1 DataBar (RSS-14 / RSS Limited / RSS Expanded), Pharmacode
2 : 2D Codes that can be read : Data Matrix (ECC200), QR Code
29
External Dimensions(Unit:mm)
FZ3-series Controllers
Box-type
120
20
12.8(28.4)10
17
80
(68)
(68)
126
(163.5)
Four, M4 mounting holes with a
depth of 6 mm
Four, 20 dia.
The size of the 2-camera
type is 83.
120
20
26
120
11
(6.8)
(39)
182.3
12
197
80
FZ3-L35/FZ3-L35-10
100
54 18 (15.45)
11
8
(6)
296
6
64 13
104
7
308
*Only the two camera connectors on the left are used
for Controllers that support only two cameras.
30
80
Four, M4
mounting holes
with a depth of
17 6 mm
33
68
246
110
260
+
-
Four, M4 mounting
holes with a depth
of 6 mm
33
(7)
130
The 2-camera type has only two
camera connectors on its right side.
126
Four, M3 mounting holes with
a depth of 6 mm
165
190
120
FZ3-35/FZ3-35-10
FZ3-75/FZ3-75-10
FZ3-95/FZ3-95-10
FZ3-H35/FZ3-H35-10
FZ3-H75/FZ3-H75-10
FZ3-H95/FZ3-H95-10
90
LCD-integrated type
FZ3-30/FZ3-30-10
FZ3-70/FZ3-70-10
FZ3-90/FZ3-90-10
FZ3-H30/FZ3-H30-10
FZ3-H70/FZ3-H70-10
FZ3-H90/FZ3-H90-10
11.5
Cameras
Intelligent camera
Auto focus camera
FZ-SLC100
68
27.5 37.5
50
100
27.5 37.5
45.0
2
2
28 73.2
87.4
28
(47)
20±0.1
10±0.1
40
(5.2)
35
(5.2)
68
33 78.2
92.4
50
101.5
100
M39X0.5
28
40
93
106.5
89.5
90
30
45.2
59.4
66.5
10
(47)
10.5
20±0.1
10±0.1
1/4-20UNC with a depth of 8.0 mm
Two, M4 mounting
holes with a depth
of 8.0 mm
7.4
Two, M4 mounting holes with a depth of 8.0 mm
Two, M4 mounting holes with a depth of 8.0 mm
53
1/4-20UNC with a depth of 8.0 mm
20±0.1
1/4-20UNC with a depth of 8.0 mm
45.2
High speed camera
Digital cameras
4-
Three, M2 mounting 10.5
holes with a depth of 5.5
3.0 mm
9.5±0.1 9.5±0.1
33.5
Two, M4 mounting
holes with a depth
of 5.5 mm
9.5
2.3
32
34
9.5
C-
2A
(C
Mounting Holes
19±0.1
ia.
.5d
2-4
1/4” 20UNC
with a depth
of 5.5 mm
mo
t)
15.5 9.5 9.5
33.4
8.3
1/4” 20UNC with a
depth of 5.5 mm
Can be used for both flat cameras and pen-shaped cameras
9.5 16
11.5
12
7.5
28
(8.8dia.)
12
16pin round connector
3000
6.5
9.2
(From ccd surface)
22
11.5
12.5dia.
9
Eight, M1.7 mounting holes
with a depth of 1.5 mm
(6.5)
37
43
11.5 16
6 12
17
M10.5
3dia.
43.5
33
12
22
Three, M2 mounting
holes with a depth of 3.0 mm
3000
44
28
17
3dia.
9.2
(From ccd
surface)
M10.5
3
26
3
4.5
9.5
40.9
8.3
1/4” 20UNC with a
depth of 5.5 mm
Four, M1.7 mounting holes
with a depth of 1.5 mm
5.5
22
9.5
15.5
Two, M4 mounting
holes with a depth
of 5.5 mm
un
(20.7)
Two-4.3dia.
3.4 13.5
10 12
(1)
1“-32UNF
(C mount)
9
26
Pen-shaped camera
FZ-SP
FZ-SPC
16.9
4-4.3dia.
10.5
Camera amplifier
8
34
48.2
7
Camera head
Flat camera
FZ-SF
FZ-SFC
16.8
36dia
34
Two, M4 mounting
holes with a depth
of 5.5 mm
Small digital cameras
35
17.5
4-R3
(1)
UN
Four M4 mounting holes
with a depth of 4 mm
(4 commonness)
30.2
25
35
40.5
Two, M4 mounting
holes with a depth
of 5.5 mm
1/4” 20UNC with a
depth of 5.5 mm
1“-
7
24
40.7
ia.10.5
14.5
(R
1)
2dia. mounting holes with a
depth of 2.5 mm (4 directions)
36d
35
12
6.5
Three, M2 mounting 10.5
holes with a depth of
5.5
3.0 mm
35
R3
Four M4 mounting
holes with a depth
of 4 mm (4 directions)
30dia
14.5 29
+0.01
22.7
17.5
47
10.5
28
25±0.05
53.5
C mount
24
15.5±0.05
14.5±0.05
FZ-SHC
FZ-SH
2 0 Mounting holes with a
depthof 2.5 mm (4 directions)
17.69±0.05
16.8±0.05
15±0.05
28
12
FZ-S5M2
FZ-SC5M2
30dia.
46.5
40
14.5 22
10.5
14
Three, M2 mounting
holes with a depth
of 3.0 mm
C mount
6.5
14.5 29
FZ-S2M
FZ-SC2M
12
28
28
22
12
14.5
Three, M2 mounting
holes with a depth of
3.0 mm
5 million-pixel camera
2 million-pixel camera
300,000-pixel camera
FZ-S
FZ-SC
46.9
40
134
25
58
28
7
73.5
12.7 9.6
7.5
24
20
43
2.5
7.5 9.5 9.5
(6.5)
(8.5)
95
FZ-SZC15
FZ-SZC100
72.2
68
FZ-SLC15
Three, M2 mounting
holes with a depth of 3.0 mm
33.5
Two, M4 mounting
holes with a depth
of 5.5 mm
Two, M3 mounting holes
with a depth of 4 mm
12.5dia.
16pin round connector
1/4” 20UNC with a depth of 5.5 mm
Intelligent Compact Cameras
Narrow view / Standard
FZ-SQ010F
FZ-SQ050F
Wide View
FZ-SQ100F (long-distance)
FZ-SQ100N (short-distance)
46
44
44
45
45
1
Optical
axis
1
46
Optical
axis
(49)
8
Mounting Hole Dimensions
,4
Two
[Note1]: The mounting brackets can be connected to either side.
Tightening torque: 1.2 N∙m
4-M4
Depth: 6
20
Mounting Hole Dimensions
20±0.1
.
ia
.5 d
20
(94.8)
3
32
20
4-M4
Depth: 6
9
32
20
1/4-20UNC
Depth: 6
[Note1]: The mounting brackets can be connected to either side.
ia.
5d
, 4.
Two
20±0.1
8
1/4-20UNC
Depth: 6
Polarizing
Filter Attachment
(4.8)
(57)
Mounting Bracket
67
(94.8)
11
9
Polarizing
Filter Attachment
(4.8)
67
Mounting Bracket
Tightening torque: 1.2 N∙m
31
Cable
Camera Cable
L[Note 1]
26-pin
rectangular connector
(12.2)
(25)
9.3 dia.
2 to 26-pin
square connector
(12.2)
[Note 2]
Right-angle Camera Cable(Model FZ-VSL)
(32)
(24.4)
9.3dia.
(42)
(100)
6.9 dia.
(25)
(100)
26-pin
rectangular connector
[Note 2]
26-pin square connector
L[Note 1]
(75)
(18.5)
(12)
26-pin
rectangular connector
[Note 2]
(18.5)
26-pin square connector
(12.2)
(75)
(24.4)
26-pin
rectangular connector
(12.2)
[Note 2]
(40)
L[Note 3]
(33.5)
(100)
[Note 2]
Long-distance Right-angle Camera Cable(Model FZ-VSL2)
(18.2)
(75)
(100)
(25)
(75)
6.9 dia.
(25)
(100)
L[Note 1]
(42)
L[Note 3]
(42)
(75)
(25)
(42)
Bend resistant Cable(Model FZ-VSB)
Long-distance Camera Cable(Model FZ-VS2)
[Note1]:cable is available in 2m/5m/10m.
The FZ-VS, FZ-VSB, and FZ-VSL are
also available with a cable length of
3.5 m.
[Note2]:Each camera cables has polarity.
(12.2)
Please ensure that the name plate
side of the cable is connected to the
controller.
[Note3]:cable is available in 15m.
Monitor Cable(Model FZ-VM)
Parallel Cable(Model FZ-VP)
FZ-VPX
L[Note 1]
35
35
(100)
(100)
29.8
15.6
2 to 15-pin square connector
50-pin square connector
50-pin square connector
[Note1]:cable is available in 2m/5m.
LCD Monitor
[Note1]: cable is available in 2m/5m.
Camera Cable Extension Unit
FZ-M08
Extension Tubes for small camera
FZ-VSJ
FZ-LESR
9 15
14.9
Extension tubes
5mm
4.85
65
75
3.2
Power supply
terminal block
27.5
4 9.1
Camera Cable Connector (Controller side)
9 14
220
Lens for small camera
4.65
3.2
Extension tubes
15mm
Special Halation-cutoff Lamp
FZ-SXCRB7018BR-4S (camera-integrated type)
Diaphragm
adjustment knob
(100)
(160)
8
(43.5)
12dia.
Fou
ia.
0d
r, 3.2
140 MAX
35 MAX
4
L
114
FZ-LES Series
(17.8)
8
(160)
114
22
Diaphragm look screw(M1.4)
6mm
F2.0
12 dia.
12 dia.
16.4mm
19.7mm
FZ-LES16
16mm
F3.4
12 dia.
23.1mm
FZ-LES30
30mm
F3.4
12 dia.
25.5mm
45
Four, 3.2 dia.
Installation dimensions
32
4-M3
114
45
71.5
F2.0
10 50
FZ-LES6
3mm
50 11
4-M3 or Four, 3.2 dia.
LensesModel Focal length Brightness Maximum outside diameter Overall length
Installation dimensions
114
15
M10.5
(90)
3
12dia.
(130)
93.8
83
60
(185)
161
(173.4)
(12.5)
(129.4)
171
(85.5)
(38)
Four, 3.4 dia.
(172)
230
POWER Indicator
3
12dia.
Four, M4
9.1
75
(31.5)
12dia.
Mountable plate thickness:
1.6 to 5.0 mm
40
5
M10.5
Camera Cable Connector
(Camera side)
26
(6)
3
(103.5)
30±5
5dia.
68.1
6.9dia.
50-pin square connector
[Note1]:cable is available in 2m/5m.
L[Note 1]
30±5
35.4
35.4
6.9dia.
10
8
10
M10.5
35
L[Note 1]
(30)
(10)
33.7
200±10
50±10
(19.2dia.)
FZ-VP
FZ-LES3
6.9 dia.
Camera Cable(Model FZ-VS)
Extension tubes
10mm
Optical Chart
5 million-pixel digital camera FZ-S
5M2
10000
FZ-LEH5
FZ-LEH8
FZ-LEH12
FZ-LEH16
t0
FZ-LEH25
FZ-LEH35
t0
t2
Camera distance (mm)
t10
t15
t15
t20
t5
t5
30
7
t0
t1
t0
t1
t0.5
t2
t10
t10
t0
t2
t5
t0
t2
t0
t10
t15
100
FZ-LEH100
t0
t1
t5
t20
t10
t25
t35 t30
t45 t40
t15
t50
t20
t25
t40 t35 t30
t5
t10
t1
t25
t15
t2
t1
t20
t30
t5
t2
t10
FZ-LEH75
t0
t5
1000
FZ-LEH50
t1
t1
t2
t5
t0.5
t1
t1.5
10
100
1000
Field of vision (mm)
The 5-mm Extension Tubes (3Z4S-LE ML-EXR) cannot be used with FZ-LEH25 Lenses.
2 million-pixel digital camera FZ-S
2M
10000
FZ-LEH5
FZ-LEH8
FZ-LEH12
t0
FZ-LEH16
FZ-LEH25
FZ-LEH35
t0
t2
t1
Camera distance (mm)
t5
t10
1000
t15
t50
t45 t40
t40 t35 t30
t35 t30
t25
t15 t10
t30 t25 t20
t25
t20
t5
t2 t1
t2
t0
t1
t1
t5
5
t1
t2
t5
30
t0
t15
t2
t10
t10
t1
t0
t10
t15
t5
10
FZ-LEH100
t0
t10
t20
100
t2
FZ-LEH75
t0
t5
t10
t20
t5
FZ-LEH50
t0
t0
t0.5
t1
t0.5
t2
t1
t1.5
100
1000
Field of vision (mm)
The 5-mm Extension Tubes (3Z4S-LE ML-EXR) cannot be used with FZ-LEH25 Lenses.
33
300,000-pixel High-speed camera FZ-SH , and Digital camera FZ-S
10000
t0
t0
t0
Camera distance (mm)
1000
t60t50
t50
100
30
t40
t45
t2
t1.5
t1
t0
t0.5
t5
t0.5
t1
t0.5
t10 t5
t1.5
t15
t2
t10
t1 t0.5
t25 t20
t30
t5
t15
t1.5
t45 t40 t35 t20
t2
t1
t40 t35 t30 t25
t10
t0.5
t1.5
t15
t5
t25 t20
t2
t10
t1 t0.5
t20 t15
t1.5
t5
t2
t1
t10
t0.5
t1.5
t1
3
10
3Z4S-LE
ML-0614
ML-0813
ML-1214
ML-1614
ML-2514
ML-3519
ML-5018
ML-7527
ML-10035
t2
t5
t15 t10
t0
t0
t2
t20
t35 t30 t25
t0
t0
t0
100
1000
Field of vision (mm)
300,000-pixel small digital cameras FZ-SF
, FZ-SP
10000
FZ-LES30
FZ-LES16
FZ-LES6
FZ-LES3
t0
t0
1000
t0
WD [Note1]
(mm)
t0
t5
100
t30 t25
t40
t35
t50 t45
t55
t60
t20
t15
t10
t5
t10
t15
t20
10
10
1
100
Field of vision (mm)
Note1: The vertical axis represents WD, not installation distance.
Meaning of Optical Chart
The X axis of the optical chart shows the field of vision (mm)(Note1),
and the Y axis of the optical chart shows the camera installation distance (mm)(Note2).
Camera
Extension Tube thickness: t (mm)
Lens
Camera
distance (mm)
WD
(mm)
Field of vision (mm)
Y
Field of
vision
X
Note1:The lengths of the fields of vision given in the optical charts are the lengths of the Y axis.
2:The vertical axis represents WD for small cameras.
34
1000
Intelligent Cameras, Autofocus Cameras
Narrow View
(Unit: mm)
FZ-SLC15
FZ-SZC15
13.8 to 14.9
Field of vision
13.8 to 14.9
Field of vision
2.9
2.9 to
to 3.1
3
13.8 to 14.9
2.9
to 3.1
55
35 to
0
2.9 to 3.1
13.8 to 14.9
2.9
to 3.1
47.5 to 67.5
0
Wide View
FZ-SLC100
FZ-SZC100
29 to 100
29 to 100
Field of vision
Field of vision
29 to 100
12.6 to
12.6
to52
52
12.6 to 52
to
70
0
29 to 100
190
12.6 to 52
to
77.5
0
197.5
*Field of Vision of Intelligent Cameras and Autofocus Cameras
The images displayed on the monitor will be rectangular images of 640×480 pixels.
The valid processing area for measurements is the 480×480-pixel area in the middle.
Intelligent Compact Cameras
Narrow View
Standard
FZ-SQ010F
FZ-SQ050F
7.5
4.7
38
8.2
to
300
Field of vision
Field of vision
191
153
33
56
0
FZ-SQ100N
240
53
13
8.2
to 60
Wide View (Short-distance)
FZ-SQ100F
Field of vision
13
Field of vision
0
Wide View (Long-distance)
53
29
33
215
0
220
to
970
18
0
32
to
380
Other Products in the Vision Sensor Series
The Perfect Setup Software
Low-cost Integrated Vision Sensor
optimum settings for a FZ3-series Vision Sensor.
A Palm-size Vision Sensor That's Applicable
Essentially Anywhere on the Line
FQ Series
Vision Optimizer
Reduces false rejections and increases throughput.
Camera,lighting, and processor all integrated into a compact de
Greatly reduces setup verification work.
Clear images even for glossy and metallic surfaces.
Helps standardize setting references and know-how.
Helps standardize setting references and know-how.
Easy expansion for additional inspections with connections to u
8 sensors.
VisionOptimizer
VisionOptimizer
注意
このディスクは
「CD-ROM 」
です。
一般オーディオ用プレーヤでは絶対再生しないでくさだい。
大音量によって、
聴力に障害を被ったり、
スピーカを破損する恐れがあります。
CAUTION
This disk is CD-ROM disk. Do not attempt to play it on an audio
CD player.
Excessively high volumes may damage your hearing ability or
speaker systems.CAUTION
Authorised Distributors:Intech Systems Chennai Pvt. Ltd
S-2, Guindy Industrial Estate, Chennai-600 032
Ph: +91 44 4353 8888 Mob: Fax: 044 4353 7888
E-mail: [email protected] Website: www.intechchennai.com
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