Download Sheet - Vision Light Tech

Now Available for Standard Lights Models!
Ultraviolet (UV) and Infrared (IR) LED Wavelengths
Infrared Lighting
Peak wavelength: 850 nm , 940 nm
Patent Pending
Ultraviolet Lighting
LED with anti-spark protection
Peak wavelength: 365 nm
LED light spread: 20degrees
Patent Pending
Achieve maximum machine vision accuracy and reliability
by choosing from the full range of LED wavelengths
CCS is now offering most standard lights in UV and IR wavelength because achieving the best image for machine
vision requires the right light and the right wavelength. You choose the light that achieves the highest levels of system
accuracy and reliability.
Comparing the effect of different LED wavelength: multi colored packaging
Imaging sample work The images below illustrate the effect
UVlight
blue light
LED emission spectrum distribution for standard models
100
Relative emission intensity (%)
of different LED colors used to
illuminate printed package graphics
containing a wide range of colors.
Individual colors of print can be
highlighted using the like color of
light because colored LED lights
contain a narrow band of
wavelengths which reflect strongly when chosen to match the
color of the surface.
White LED light contains all visible wavelengths and reflects a gray
value from all colors according to there relative brightness. IR light
reflects almost equally from each print color. Choosing the best
wavelength for your inspection needs is essential.
80
Ta=25
UV light
: 365 nm
60
40
Infrared light: 850 nm
Green light
: 525 nm
Blue light
: 470 nm
Infrared light
: 940 nm
Red light: 660 nm
White light
20
0
300 350 400 450 500 550 600 650 700 750 800 850 900 950 1000 1050
Wavelength (nm)
green light
white light
red light
IR light
Infrared (IR) Light Series
Infrared light's long wavelength often allows for less scattering from part surfaces and higher transmission rates through them. Higher
transmission means it can pass through more materials making IR light ideal for inspecting package fill levels or ensuring against foreign
matter. Lower surface scattering means IR light can often be used to ignore some surface paint or print for unobstructed inspection for surface
details such as scratches, chips, holes, edges, or characters on a wide variety of materials including paper, cloth, plastics and metals.
IR Series offers choice of peak wavelengths of 850-nm or 950-nm
and features LED light spread angles optimized for the light structure
Product line for IR
850-nm versus 940-nm peak wavelength infrared LED emission spectrum
The choice of the IR LED peak wavelength
allows you to capture the best images for
your application by optimizing for the
reflectivity of the object and sensitivity of the
sensor. A full line of 32 light models allows
you to choose the type of light geometry best
suited for your application
Relative emission intensity (%)
100
Ta=25
80
850 nm type
940 nm type
60
40
20
0
750
800
850 900 950
Wavelength (nm)
1000 1050
LDR2 Series
LDQ Series
Imaging with peak wavelength of 850 nm vs. 940 nm
850 nm
SQR Series
LDR2-LA Series
LFL Series
LDL Series
LFV2 Series
Typical camera* spectral sensitivity characteristic
vs.
infrared LED emission spectrum distribution
940 nm
100
Relative sensitivity
80
60
40
CCD camera sensitivity
wavelength characteristic
Emission spectrum distribution
for 850 nm infrared LED
20
Emission spectrum distribution
for 940 nm infrared LED
Lighting intensity : 10% light control
0 10
1
100(%)
Lighting intensity : 50% light control
0
50
100(%)
0
400
500
600
700
800
900
Wavelength (nm)
1000
1100
* CV-M50IR provided by JAI Corp.
Infrared lighting application examples
Infrared light often transmits through material more than visible light wavelengths. This common feature can be
used as a solution to common machine vision inspection that require seeing through surface layers or material.
Example image
Wafer pattern
Example image
With occluding graphics
Example image
Printed date code occluding
molded surface features
Example image
Foreign matter mixed in
beverage container
Visible light
A backlight with visible light does not
transmit through wafer.
Visible light
Visible light of any wavelength
illuminates the graphics behind the
date.
Visible light
Printed text on the cap absorbs visible
light causing it to occlude any surface
defects or feature detection in the
Visible light
A visible light from a backlight does not
penetrate the plastic bottle.
Infrared light
An IR backlight passes through the
wafer material to uniformly silhouette
the pattern.
Infrared light
IR light passes through the occluding
graphic pigment but not this printed
date code enabling reliable OCR/OCV
Infrared light
IR light passes through the printed text
and reflect uniformly from the
unbroken surface allowing for defect or
feature detection.
Infrared light
An IR backlight penetrates the plastic
bottle and silhouettes the foreign
object resting at the bottom for reliable
detection.
*The sample objects above have been purchased and worked on by CCS and do not represent the original quality or performance of the individual products.
2
Infrared lighting IR Series Specifications
Model Specifications
Peak Wavelength
(nm)
Model
1
2
3
4
5
6
7
8
RoHS-compliant products
LDR2-50IR850
850
LDR2-50IR940
940
LDR2-70IR850
850
LDR2-70IR940
940
LDR2-90IR850
850
LDR2-90IR940
940
SQR-56IR850
850
SQR-56IR940
940
LDR2-74IR850-LA
850
LDR2-74IR940-LA
940
LDR2-132IR850-LA
850
LDR2-132IR940-LA
940
LDL-42X15IR850
850
LDL-42X15IR940
940
LDL-74X27IR850
850
LDL-74X27IR940
940
Power
Consumption
Weight (g)
12V/3.8W
50
12V/7.6W
130
10
12V/14W
170
11
12V/3.8W
9
80
12V/5.7W
Model
12
90
13
12V/16W
270
14
12V/1.9W
40
15
12V/6.9W
80
16
Peak Wavelength
(nm)
LDL-82X15IR850
850
LDL-82X15IR940
940
LDL-130X15IR850
850
LDL-130X15IR940
940
LDL-180X16IR850
850
LDL-180X16IR940
940
LDQ-78IR850
850
LDQ-78IR940
940
LDQ-150IR850
850
LDQ-150IR940
940
LDL-100X100IR850
850
LDL-100X100IR940
940
LFL-100IR850
850
LFL-100IR940
940
LFV2-50IR850
850
LFV2-50IR940
940
Power
Consumption
12V/3.8W
Weight (g)
12V/6.1W
90
12V/8.4W
110
12V/6.1W
110
12V/16W
530
24V/21W
650
12V/5.3W
220
12V/8.4W
260
60
Series Specifications
IR
Series
IR
LED Color
850nm/940nm
Peak Wavelength(Typ.)
Viewing Angle
Plus minus 15 degree (Except 14, 15, 16)
Input Voltage
DC12V(AC or 24VDC adapter available)
SMR-02V-B (JST)
Connector
1: Anode (+) brown / 2: Cathode (-) blue
Polarity, Signal
Cable Length
0.3m
Case Material
Aluminum
Temperature: 0 ~ 40 C , Humidity: 20 ~ 85%RH (non-condensing)
Operating Conditions
Temperature: -20 ~ 60 C , Humidity: 20 ~ 85%RH (non-condensing)
Storage Conditions
Class 1 LED product: Do not look into or touch the beam directly.
Laser Class
*Lights with a peak wavelength of 950 nm are available by order.
Infrared light is not visible to the human eye. Avoid prolonged direct viewing of LED light.
Images
LDR2-74IR850-LA
LDQ-78IR850
LFV2-50IR850
LFL-100IR850
LDL-130X15IR850
LDR2-50IR850
SQR-56IR850
LDL-82X15IR850
3
Dimensions (mm)
2.LDR2-70IR850/LDR2-70IR940
3.LDR2-90IR850/LDR2-90IR940
30
300
0
45
45
90
70
28
4.SQR-56IR850/SQR-56IR940
5.LDR2-74IR850-LA/LDR2-74IR940-LA
30
6.LDR2-132IR850-LA/LDR2-132IR940-LA
30
30
0
0
45
4-M3 depth 5
P.C.D.116
132
48
74
30
9
28
38
56
4-M3 depth 5
P.C.D.60
0
45
96
50
35
20
22
16
28
0
4-M3 depth 4
P.C.D.70
4-M3 depth 5
P.C.D.50
4-M3 depth 4
P.C.D.40
30
45
50
1.LDR2-50IR850/LDR2-50IR940
22
38
56
19
8.LDL-74X27IR850/LDL-74X27IR940
(Emitting surface)
(Emitting surface)
18
5
30
58
52
10 40
36
78
46
20
8
110
80
120
5
(Emitting surface)
16 (Emitting surface)
112
10
80
5
122
16 (Emitting surface)
16
4- 3.5/
6countersink,depth 3
30
0
16
100
(Emitting surface)
(1.2)
1 11 32
32
94
32
62
4-M4 depth 5
132
100
38
52
60
36
16.LFV2-50IR850/LFV2-50IR940
4- 5
15.LFL-100IR850/LFL-100IR940
0
30
100
15
(Emitting surface)
3.2
112
100
(Emitting surface)
8.4
(Emitting surface)
(Emitting surface)
19
82
6
132
(Emitting surface)
100
110
148
0
30
42
14.LDL-100X100IR850-DF/LDL-100X100IR940-DF
30.2
90
36
4-M3
00
3
4-M4
100
9
4 9
4 9
10
8.5
13.LDQ-150IR850/LDQ-150IR940
148
110
(Emitting surface)
2X2-M2 depth 5
3
0
30
17
16
181.4(Emitting surface)
5
4 9
20
0
18
78
46
21
17
21
10
00
19
12.LDQ-78IR850/LDQ-78IR940
191.4
(Emitting surface)
130(Emitting surface)
2X2-M2 depth 5
2X2-M2 depth 5
8.5
0
30
11.LDL-180X16IR850/LDL-180X16IR940
140
15
(Emitting surface)
10
2-M3depth4
10.LDL-130X15IR850/LDL-130X15IR940
15
82
(Emitting surface)
30
2X2-M2 depth 5
28.8
8.5
50
14.4
10
0
18
4 9
20
(Emitting surface)
5
(Emitting surface)
34
6
15
42
92
27.2
74
17
17
5
9.LDL-82X15IR850/LDL-82X15IR940
86
(Emitting surface)
52
5
7.LDL-42X15IR850/LDL-42X15IR940
22
42
9
4-M3 depth 4
4
Ultraviolet (UV) Series
The new UV wavelength availability for standard CCS light models allows for the benefits of LED lights----lifetime, flexibility, and
strobing----for application that require UV light to solve the application and achieve the best image. In order to ensure maximum
lifetime and safety CCS's market leading engineering capability has developed an "anti-spark" protection feature. A moderate
20 degree LED light spread contributes to illumination intensity, range, and uniformity.
Employment of original ultraviolet LED achieving even higher safety and reliability
CCS's proprietary LED package with
anti-spark protection
Unprotected UV light model vs. new model with anti-spark protection
Unprotected
Patent pending
Anti-spark protection
Many ultraviolet LEDs have packages made from iron alloy, making them
vulnerable to static electricity. This has created a major problem with individual LED
failure due to a spark occurring when there is contact with a piece of conductive material.
CCS's original ultraviolet LED has eliminated this problem by employing a proprietary
anti-spark protection feature.
While an LED usually has two leads, CCS's original
ultraviolet LED is provided with an additional lead.
This unique structure has achieved a spark
prevention effect.
The UV Series offers a wavelength of 365 nm and LED light spread of 20 .
365-nm Peak Wavelength Emission Spectrum Distribution and
LED Light Spread Characteristic of CCS UV LED
Relative emission intensity (%)
Ta=25
IF =20mA
80
-40
-50
60
-60
40
-70
20
-80
0
-90
250
300 350 400
Wavelength (nm)
450
Relative emission intensity (%)
-30 -20 -10
100
0 +10 +20 +30
Ta=25
Product line for UV
LDR2 series
SQR series
LDL series
LDQ series
LDR2-LA series
LDR-LA-1 series
+40
80
60
40
20
0
Radiation angle
+50
+60
LN series
LSP series
+70
+80
+90
Light Pattern and Working Distance Charts
A moderate 20 degree LED light spread contributes to illumination intensity, range, and uniformity for any light model. Use these charts to help choose
the most appropriate light pattern and working distance for your application testing. Optimum imaging is available by selecting an appropriate radiation
form according to the nature or item of inspection of the Target.
LDR2-70UV365
LDR2-74UV365-LA
LDL-74X27UV365
70mm
5mm
50mm
100mm
10mm
100mm
5
Ultraviolet lighting UV series application examples
Ultraviolet light is most commonly used to cause materials such as inks or glues to fluoresce for identification or bonding
integrity inspection. It also easily scatters off very small surface features such as scratches more so than longer wavelengths.
Example image
PCB foreign matter detection
Example image
Printed text on the
bottom of can
Example image
Invisible Ink Authencitity Mark
Example image
Dent on desk mat
Visible light
Visible light illuminates both the PCB
features as well as foreign matter so
they are difficult to distinguish.
Visible light
Uniformly illuminating the bottom of
can is very difficult to do with any
wavelength of light.
Visible light
Visible light does not illuminate the
authenticity code used to identify high
value items from imitations.
Visible light
Visible light penetrates the mat and
does not provide sufficient contrast.
Ultraviolet light
UV light does scatters from the top
layer of the board illuminates only the
foreign particle but not the PCB trace
pattern.
Ultraviolet light
UV light can be used to make an
invisible ink fluoresce brightly for easy
detecting that doesn't require even
illumination of the background.
Ultraviolet light
UV light shows the invisible bar code
used to authenticate the merchandise
origins.
Ultraviolet light
UV light reflects off the surfaces with
high internal residual stress for reliable
detection.
6
Ultraviolet lighting UV Series Specifications
Model Specifications
Model
RoHS-compliant products
Peak Wavelength
(nm)
Power
Consumption
Weight (g)
Model
Peak Wavelength
(nm)
Power
Consumption
Weight (g)
1
LDR2-32UV365
24V/0.4W
30
17
LDR-176-UV365-LA-1
24V/3.8W
200
2
LDR2-42UV365
24V/0.8W
50
18
LDR-206-UV365-LA-1
24V/4.6W
220
3
LDR2-50UV365
24V/1.2W
50
19
LDL-34X8UV365
24V/0.4W
15
4
LDR2-70UV365
24V/3.1W
130
20
LDL-42X15UV365
24V/0.8W
30
5
LDR2-90UV365
24V/3.8W
170
21
LDL-74X27UV365
24V/3.1W
95
6
LDR2-90-30UV365
24V/6.1W
220
22
LDL-82X15UV365
24V/1.6W
45
7
LDR2-120UV365
24V/9.5W
510
23
LDL-130X15UV365
24V/2.3W
85
8
SQR-56UV365
24V/1.6W
80
24
LDL-180X16UV365
24V/3.8W
110
9
LDR2-74UV365-LA
24V/1.9W
90
25
LDQ-60-25UV365
10
LDR2-100UV365-LA
24V/4.6W
170
26
11
LDR2-132UV365-LA
24V/6.9W
270
12
LDR2-170UV365-LA
24V/9.9W
350
13
LDR2-208UV365-LA
24V/12W
14
LDR-75-UV365-LA-1
15
LDR-96-UV365-LA-1
16
LDR-146-UV365-LA-1
365
365
24V/1.6W
60
LDQ-78UV365
24V/1.6W
100
27
LDQ-100UV365
24V/3.1W
330
28
LDQ-150UV365
24V/6.1W
490
790
380
29
LDQ-200UV365
24V/9.1W
24V/1.6W
70
30
LN-200UV365
24V/1.9W
400
24V/2.3W
100
31
LSP-41UV365
24V/1.2W
115
24V/3.1W
160
Series Specifications
UV
Series
Ultraviolet
LED Color
Peak Wavelength
(Typ.)
365 nm
Viewing Angle
Plus minus 20 degree.
Input Voltage
24 VDC
Connector
SMR-03V-B (JST)
Polarity, Signal
1: Anode (+) brown / 2: NC / 3: Cathode (-) blue
Cable Length
0.3 m
Case Material
Aluminum
Operating Conditions
Temperature: 0 ~ 40 C, Humidity: 20 ~ 85%RH (non-condensing)
Storage Conditions
Temperature: -20 ~ 60 C, Humidity: 20 ~ 85%RH (non-condensing)
Laser Class
Class 3B LED product: Do not look into or touch the beam directly.
The UV Series ultraviolet lighting products use a laser beam equivalent to Class 3B. Direct incidence of ultraviolet light into the eye is extremely
dangerous. Be sure to put on UV protective glasses when using the product and exercise caution in its handling. Ensure safety with the device or
equipment on which to mount the lighting.
Images
LDR2-100UV365-LA
LDQ-100UV365
LDR2-90UV365
LDR2-74UV365-LA
LDR2-50UV365
LDL-82X15UV365
LDR2-32UV365
LDR-75UV365-LA-1
LDL-42X15UV365
LSP-41UV365
7
Dimensions (mm)
2.LDR2-42UV365
3.LDR2-50UV365
30
30
0
0
45
50
18
16
5.LDR2-90UV365
0
90
90
20
11.LDR2-132UV365-LA
132
4-M3 depth 4
12
64
60
96
80
55
46
56
172
75
300
0
17.LDR-176-UV365-LA-1
45
45
12
18.LDR-206-UV365-LA-1
45
12
300
4-M3 depth 4
140
160
176
4-M3 depth 4
12
300
206
190
170
16.LDR-146-UV365-LA-1
146
130
110
45
30
22
4-M3 depth 4
22
15.LDR-96-UV365-LA-1
12
4-M3 depth 4
300
0
22
0
208
4-M3 depth 5
P.C.D.186
30
45
4-M3 depth 5
P.C.D.154
70
100
0
14.LDR-75-UV365-LA-1
30
45
12.LDR2-170UV365-LA
30
45
22
13.LDR2-208UV365-LA
48
19
4-M3 depth 5
P.C.D.116
4-M3 depth 5
P.C.D.84
74
300
4-M3 depth 4
170
134
0
4-M3 depth 5
P.C.D.60
96
30
45
18
31.5
45
30
0
38
56
60
9.LDR2-74UV365-LA
30
10.LDR2-100UV365-LA
20
56
38
0
120
4-M 3depth 5
P.C.D.90
8.SQR-56UV365
30
45
0
4-M3 depth 4
P.C.D.70
22
7.LDR2-120UV365
30
45
4-M3 depth 4
P.C.D.70
35
70
4-M3 depth 5
P.C.D.50
0
45
6
6.LDR2-90-30UV365
30
30
30
45
16
18
50
4.LDR2-70UV365
0
4-M3 depth 4
P.C.D.40
42
32
4-M3 depth 4
P.C.D.28
10
4-M3 depth 4
P.C.D.20
45
30
45
28
1.LDR2-32UV365
8
Dimensions (mm)
20.LDL-42X15UV365
17
15
(Emitting surface)
86
0
23.LDL-130X15UV365
31.LSP41UV365
(51.5)
(11.5)
2
9
36
8
2
26
30
0
(Emitting surface)
12
33
41
40
2-M4 Fixing screw
18
130
(Emitting surface)
42
60
(Emitting surface)
205
15
24.5
45.6
3.2
10
2-M3(Fixing screw)
(8)
150
4-M2 depth 4
15
15
200
175
100
0
30
100
148
110
(Emitting surface)
150
3.2
30.LN-200UV365
31.2
90
82
(Emitting surface)
108
70
10
36
78
300
30
42
8-M4
200
100
30.2
3.2
15
(Emitting surface)
90
100
60
46
29.LDQ-200UV365
4-M4
5 (Emitting surface) 5
0
28.LDQ-150UV365
42
44
34
30.2
4-M4
30
0
30
4-M2.6 depth 3
148
110
108
70
4-M3
36
2X2-M2 depth 5
27.LDQ-100UV365
8.4
78
30
300
90
58
30
25
58
30
25
(Emitting surface)
17
12
26.LDQ-78UV365
10
2X2-M2 depth 5
0
30
25.LDQ-60-25UV365
16
(Emitting surface)
181.4(Emitting surface)
21
21
10
2X2-M2 depth 5
300
15
(Emitting surface)
130(Emitting surface)
4 97
20
10
191.4
4 98
15
(Emitting surface)
82(Emitting surface)
24.LDL-180X16UV365
17
17
2-M2
2-M3 depth 4
50
140
300
92
30
2X2-M2 depth 5
30
22.LDL-82X15UV365
28.8
10
2-M3 depth 4
(Emitting surface)
12 20 12
4 9
20
0
0
7
(Emitting surface)
30
27.2(Emitting surface)
4 9 8
42
2-M2 depth 5
8
74(Emitting surface)
16
8.4
(Emitting surface)
5
15
5 (Emitting surface) 5
21.LDL-74X27UV365
52
200(Emitting surface)
210
205
2X2-M3 depth 7
25
30
100
0
20
10.4
18
44
34
21
19.LDL-34X8UV365
Option
Ultraviolet transmission filter
U-340series
Ultraviolet cutting filter
Size
M25.5
M27.0
M30.5
M40.5
M46.0
Filter characteristic vs. UV LED emission spectrum distribution
P0.5
P0.5
P0.5
P0.5
P0.75
100
80
L-42series
Model
L42-25
L42-27
L42-30
L42-40
L42-46
Size
M25.5
M27.0
M30.5
M40.5
M46.0
365 nm UV LED emission spectrum distribution
U-340 filter
Transmission (%)
Model
U340-25
U340-27
U340-30
U340-40
U340-46
P0.5
P0.5
P0.5
P0.5
P0.75
L-42 filter
60
40
20
0
300
400
500
Wavelength (nm)
600
700
800
Images with/without ultraviolet transmission/Ultraviolet cutting filter
Without filter
Work image
Without either filter, both
ultraviolet and visible light
are captured, which causes
reduced contrast.
Imaging of mail code
With UV
transmission filter
With UV cutting filter
Use of an ultraviolet transmission
filter allows capturing of only the
components in the ultraviolet
region.
Use of an ultraviolet cutting
filter allows capturing of only
the visible light components
from scattered light.
Notes on use of ultraviolet lighting
For safe use
In 1993, the International Electrotechnical Commission (IEC) made effective IEC 825-1, a standard concerning the safety of laser products, the scope of which
includes LEDs. Subsequently, relaxation of provisions was considered for diffusive light sources and IEC 60825-1 Edition 1.1 of 1998 introduced methods of
measurement with the sizes of light sources taken into account. Later in 2001, IEC 60825-1 Amendment 2 provided for the division of laser into seven classes.
The laser used in CCS's ultraviolet LED lighting products corresponds to Class 3B. Never allow any direct or diffusely reflective ultraviolet beam radiate on the
eye or skin. Directly looking into the light source may affect the health of the eye. Be sure to wear UV protective glasses when using the product and exercise
caution in its handling. Regarding the device or equipment on which to mount the lighting, provide warning indication stating the use of ultraviolet lighting and
ensure safety. See the "Ultraviolet LED Lighting Instruction Manual" for details.
UV protective glasses*
Caution
- Never directly look into or touch the ultraviolet beam.
- Before turning the light on, be sure to put on UV protective glasses and prevent the light from entering the eye.
- Do not turn the light on of the ultraviolet LED as the radiating (light emitting) section is directed at the human eye.
* Make sure of the wavelength range
for which the glasses provide protection.
- Wear long-sleeved clothes and gloves to prevent exposure of the skin for preventing the ultraviolet light from reaching the skin.
- Be sure to inform all personnel involved in the use of the product or with access to the surrounding areas of the danger of ultraviolet LED.
About camera, lens and filter
The image taken may be affected by the emission spectrum distribution of the ultraviolet LED used and the spectral sensitivity characteristic of the
CCD camera. For stable imaging, optimize the optical system including a CCD camera, lens and filter.
CCD camera spectral sensitivity characteristic
vs.
UV LED emission spectrum distribution
100
Relative sensitivity
near-ultraviolet region. Ordinary CCD cameras are not very sensitive in the near-ultraviolet
region, which may cause images to be darker or susceptible to disturbance light. Use of
80
CCD camera spectral
sensitivity characteristic
60
ultraviolet transmitting filters or ultraviolet cutting filters reduces the light intensity. Allow
sufficient margins in the imaging conditions (lighting control, f-stop number, distance
40
365 nm UV LED emission
spectrum distribution
20
0
For optimum imaging with ultraviolet lighting, use a CCD camera that is sensitive in the
320
340
360
380
400
420
between the work and camera, distance between the work and lighting, etc.) when using
such filters.
440
Wavelength (nm)
*Graphic representing spectral sensitivity characteristic of CCD camera XC-EU50 provided by Sony Corp.
10
Information
Infrared and ultraviolet lighting products are supplied with label tags stating the class of danger, which provide
important information as well as notes on handling. Be sure to leave the labels on when using the product.
Label tag samples
Infrared and ultraviolet lighting products are supplied with label tags stating the class of danger, as shown below.
The label tag on the front side contains information including the maximum power and wavelength and the label tag
on the rear side states the model number, serial number, etc. Be sure to check the label tags before use and use caution in handling.
Infrared lighting
Ultraviolet lighting
LED RADIATION
Front
LED RADIATION
DO NOT STARE INTO BEAM
MAX POWER:47mW
WAVE LENGTH:850nm
CLASS 1 LED PRODUCT
EN60825-1:1994+A1:2002+A2:2001
Front
LED RADIATION
AVOID EXPOSURE TO BEAM
MAX POWER:500mW
WAVE LENGTH:365nm
CLASS 3B LED PRODUCT
EN60825-1:1994+A1:2002+A2:2001
DO NOT STARE INTO BEAM
Rear
LDR2-50IR850
1002578-012345
12V/3.8W
MADE IN JAPAN
MAX POWER:47mW
WAVE LENGTH:850nm
Rear
CLASS
2 LED PRODUCT
EN60825-1:1994+A1:2002+A2:2001
LDR2-32UV365
1002639-012345
24V/0.4W
MADE IN JAPAN
LED RADIATION
AVOID EXPOSURE TO BEAM
MAX POWER:500mW
WAVE LENGTH:365nm
CLASS 3B LED PRODUCT
EN60825-1:1994+A1:2002+A2:2001
Laser safety standards (IEC 60825-1 Amdt. 2)
The LED lighting products fall in classes of laser products specified by the International Electrotechnical Commission (IEC)
and the Japanese Industrial Standards (JIS). The table below provides the classification of the degrees of danger and overview.
Class
Overview of degree of danger
Class 1
Class 1M
Class 2
Class 2M
Class 3R
Class 3B
Class 4
Has an inherently safe design.
Equivalent to Class 1 except that it can be harmful when an optical device is used in the beam.
Low-output (400-700 nm) visible light; the eye can usually be protected by a natural involuntary response such as blinking.
Equivalent to Class 2 except that it can be more harmful when an optical device is used in the beam.
Direct viewing of the inside of the beam may pose danger.
Direct viewing of the inside of the beam is hazardous in normal conditions. However, diffuse reflection of the beam is believed to be generally safe.
May generate hazardous diffuse reflection, which can cause skin damage or fire.
Infrared lighting IR Series/ultraviolet lighting UV Series laser class (based on IEC 60825-1 Amdt. 2)
IR Series: Class 1
UV Series: Class 3B
The infrared lighting IR Series and ultraviolet lighting UV Series are
"environment-conscious products" conforming to the RoHS Directive.
Detailed information on RoHS Directive and compatibility status of products,
please visit the CCS's Website.
http://www.ccs-inc.co.jp
Caution
- All specifications or design are subject to change without notice
- Samples of the work images described in this catalog are referential for our customers to select lights. When selecting, be sure to check the functions and conditions of the
equipment. In addition, the sample works were purchased and processed by our company, and they do not represent their original qualities and performances.
http://www.ccs-grp.com
Headquarters
Shimodachiuri-agaru, Karasuma-dori, Kamigyo-ku, Kyoto 602-8011 Japan
Phone: +81-75-415-8284 / Fax: +81-75-415-8278
E-mail: [email protected]
Copyright(c) 2007 CCS Inc. All Rights Reserved.
Descriptions in this catalog are based on the information available as of August 2007. 02002-02-0610-IR/UV