Light Analysis : Energy &amp
Light Analysis :
Energy & Spectrum
419
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
●
Power / Energy Meters
●
Photodiode Sensors ........................................
LED Measurement / Integrating Spheres ........
Thermal Power Sensors ..................................
Beam Dumps / Beam Track ............................
Pyroelectric Energy Sensors ...........................
OEM Power and Energy Sensors ....................
Power Meter ...................................................
PC Interfaces ..................................................
●
Beamprofilers
Light Meters
Radiometer ....................................................... 519
Light Meters ..................................................... 519
Photometer ....................................................... 520
●
Accessories
視效函數偵測器
Photometric ...................................................... 522
輻射功率偵測器
Power Sensor ................................................... 522
可調光衰減器
Camera-Based Profilers ..................................
Scanning-Slit Profilers ....................................
Beam Watch ...................................................
ModeCheck .....................................................
● M2 .....................................................................
●
421
429
433
436
438
440
441
448
453
467
447
480
483
Fiber Optic Variable Attenuator ........................ 523
積分球
Integrating Sphere ........................................... 525
Collimating Lenses ........................................... 526
Sampling Accessories ...................................... 527
Spectrometers
Flame Series - High Thermal Stability ............
USB-Series - General ......................................
Torus Series - Low Stray Light ......................
HR Series - High Resolution ...........................
Maya Series - High Quantum Efficiency .........
QE Pro Series - High Quantum Efficiency ......
NIRQuest Series - NIR High Resolution .........
STS Series - Compact ....................................
Jaz Modular Spectroscopy - Stackable Modules .
Red Tide - Education ......................................
ChemUSB - Education ....................................
EMBED Spectrometer - OEM Applications .....
491
492
500
501
507
509
511
514
515
516
517
518
http://www.unice-eo.com Email : [email protected]
420
Power Meters and PC Interfaces Overview
Ophir power meters and PC interfaces work on the smart plug principle. This means that almost any Ophir power meter or
PC interface can work – plug and play – with almost any of the wide range of Ophir sensors. Ophir power meters are also
the most sensitive, lowest noise, most precise calibration units on the market thus giving the untmost performance from
our smart sensors.
As for ease of use, only Ophir power meters have smart keys to give the easiest and most convenient user interface. The
units also come with a versatile range of software to use seamlessly either with the Ophir software or the user’s own.
Beamprofilers
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
Photodiode Sensors
Thermal Sensors
Pyroelectric Sensors
Powers mW to kW and
single shot energy
Energies pJ to Joules
Rep rates to 25kHz
M2
Powers pW to Watts
Computer Interfaces
with USB/RS232
with USB/Bluetooth
Accessories
Light Meters
Spectrometers
Power Meters
StarBright
added features
Vega
color
Nova ll
general
StarLite
basic
Nova
compact
Laserstar
2 channel
Juno
compact
Pulsar
1, 2, 4 channels
USB
Interface basic
Quasar
wireless
Software Solutions
StarLab, LabVIEW, StarCom ActiveX
& COM Object Interfaces
StarLab software
421
LabVIEW
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
Laser Power Meter
The standard LP1 is calibrated at 633 nm but can also read any other wavelength in the 400 ~ 1100 nm range using a chart inside the case
cover. We can calibrate directly to any other 400 ~ 1100 nm wavelength for special orders. Pocket size meter but with high accuracy and
wide ranges. Sensor / Probes can be all neatly contained and protected within the folding case. Easy to carry in a shirt pocket.
Beamprofilers
Wavelength customization
Power /
Energy Meters
Model No:LP1
* Wide optical power measurement range
* Silicon photodiode
* Sensor can be all neatly contained and protected within the folding case
* Max / Min hold
* Auto power save (30min.)
* 500mm sensor cord
G
Specifications
Si Photodiode( Φ9mm )
Optical Sensor
Wavelength Range
Wavelength
Sampling Rate
Measuring Range
Accuracy
Size/Mass
Standard Accessories Included
Handheld Laser Power Meter
* 400nm to 1064nm
* ±5% Accuracy
This laser power meter is truly a technological breakthrough for users of low power CW lasers. This is the most
versatile, compact, and a ordable laser power meter available on the market today. Controls & indicators: power/
wavelength display select switch, wavelength select increment and decrement buttons, sample/hold button, 3
digit LCD with units indicator, attenuator position indicator, attenuator position control slide and over-range tone
generator. Automatic functions: power range, wavelength correction, peak sample & hold, shut-o, over-range
detect, and attenuator position detect. Additional features include an over-range indication, pocket clip, and storage
case. Note: Battery is not replaceable.
Wavelength Selection Display
Peak Sample Time
Meas. Hold Display Time
Battery Life
Size (Max. Dimensions)
Weight
Stock No.
400 - 1064nm
8%
10mW; 1W with built-in attenuator
0.5W/cm2, 30W/cm2 with attenuator
9.99ȫW
0.01ȫW
0.5ȫW
8.0mm
3 digit LCD with power unit indicator
1mm thick; NG-10 Schott filter glass
400 to 999 (for 400 to 999nm)
000 to 064 (for 1000 to 1064nm)
2 sec.
10 sec.
180,000 samples at 12 sec/sample
6.59"L x 0.92"W x 0.78"T
1.54oz.
UNI54018
http://www.unice-eo.com Email : [email protected]
Accessories
Spectral Response
Accuracy
Max. CW Power*
Max. CW Power Density*
Min. Full Scale Power
Min. Power Resolution
Min. Detectable Power
Aperture Size
Measurement Display
Built-in Range Step Attenuator
Light Meters
* 0.5μW to 1W
Spectrometers
Battery
Power Consumption
Operating Temperature
Storage Temperature
M2
Display
400nm ~ 1100nm
633nm (He-Ne Laser) reference wavelength Convert by a table of spectral
Sensitivity characteristic (representing value)
Numeric: 3999 full scale,Bargraph : 42-segment
Approx. 2 times/sec. for numeral display.
Approx. 20 times/sec. for bargraph.
40.00u / 400.0u / 4.000m / 40.00mW
±5% ( 1mW : 4mW range , 633nm )
23°C±2°C
LR44 x 2
Approx.6mW
0°C ~ 40°C max.80% RH no condensation
-10°C ~ 50°C max. 80% RH no condensation
H117 x W76 x D18mm/approx. 120g
Sensor probe: H84 x W16 x D10mm
Instruction manual
422
Beamprofilers
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
Standard Photodiode Sensors
50pW to 3W
Features
* Very large dynamic range
* Swivel mount for hard to measure places
* Comes with filter in / filter out options
* Patented automatic background subtraction
* Fiber optic adapters available
Accessories
Light Meters
Spectrometers
M2
Model
Use
423
Detector Type
Aperture
Filter mode
Spectral Range nm
Power Range
PD300
General
PD300 with filter off
PD300-1W
Powers to 1W
PD300 with
filter installed
PD300-3W
Powers to 3W
silicon
silicon
10x10mm
10x10mm
Filter out
Filter in
Filter out
Filter in
350-1100
430 - 1100
350 - 1100
430 - 1100
30mW to 500pW 300mW to 200μW 30mW to 500pW 1W to 200μW
30mW to 30nW 300mW to 30mW 30mW to 30nW
1W to 30mW
and dBm
and dBm
and dBm
and dBm
0.01
NA
0.01
NA
nm
mW
mW
nm
mW
mW
<488 30
<488
30
300
1000
633
20
633
20
300
1000
670
13
670
13
200
1000
790
10
790
10
100
600
904
10
904
10
100
700
1064 25
1064
25
250
1000
±10 360 - 400 NA
±10 360 - 400
NA
±3 400 - 950 ±5 430 - 950
±3 400 - 950
±5 430 - 950
±5 950 - 1100 ±7 950 - 1100 ±5 950 - 1100 ±7 950 - 1100
10
50
10
10(a)
2
20
2
100
20
20
0.2
0.2
±2%
±2%
95-98% of background is cancelled automatically under normal room
SMA, FC, ST, SC
SMA, FC, ST, SC
silicon
10x10mm
Filter out
Filter in
350 - 1100
430 - 1100
100mW to 5nW 3W to 200μW
100mW to 300nW 3W to 30mW
Power Scales
and dBm
and dBm
0.1
NA
Resolution nW
nm
mW
mW
<488
100
3000
633
100
3000
Maximum Power vs.
670
100
2000
Wavelength
790
100
1200
904
100
1200
1064
100
2200
Accuracy (including errors due
±10 360-400
NA
to temp. variations)% error vs
±3 400 - 950
±5 430 - 950
Wavelength nm
±5 950 - 1100 ±7 950 - 1100
Damage Threshold /cm²
10
100
Max Pulse Energy μJ
20
500
Noise Level for filter out pW
200
Response Time with Meter s
0.2
Beam Position Dependence
±2%
±3%
Background Subtraction
NA
Fiber Adapters Available
SMA, FC, ST, SC
Version
V1
Part Number
7Z02410
7Z02411A
7Z02426
Note: (a) Maximum power density above which sensor may not read correctly. There will be no permanent damage until 50W/cm²
PD300/ PD300-1W filter installed
PD300/ PD300-1W filter off
PD300-TP Mounted
on stand
PD300-TP
Thin profile for tight fit
silicon
10x10mm
Filter out
350 - 1100
3mW to 50pW
3mW to 3nW
and dBm
0.001
nm
mW
350-400 3
400-500 3
600
2.5
700
2
800-950 1.5
1064
3
±7 350 - 400
±3 400 - 950
±5 950 - 1100
10
1
±2
0.2
±2%
NA
NA
7Z02424
PD300-TP
PD300-TP
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Filter in
400 - 1100
1W to 20μW
1W to 3mW
and dBm
1
mW
NA
1000
1000
500
300
500
NA
±5 400-950
±7 950-1100
50
100
Light Analysis : Energy & Spectrum
Standard Photodiode Sensors
Power /
Energy Meters
10pW to 300mW
Features
Detector Type
Aperture
Filter mode
Spectral Range nm
Power Range
Resolution nW
Maximum Power vs.
Wavelength
Filter in
220 - 1100
300mW to 2μW
300mW to 300μW
and dBm
100
mW
300
300
600
800-950
1064
300
150
300
3
2.5
3
±6 200 - 270
±3 270 - 950
±5 950 - 1100
10
0.4
±10 220 - 400
±5 400 - 950
±7 950 - 1100
50
15
germanium
φ5mm
Filter out
700 - 1800
30mW to 5nW
30mW to 30nW and
dBm
0.01
nm
mW
800
12
1000 - 1300 30
Filter in
700 - 1800
300mW to 200μW
300mW to30mW
and dBm
NA
mW
120
300
1400
30
1500
25
1600
30
1800
30
±5 700 - 900
±4 900 - 1700
±7 1700 - 1800
10
0.3
250
80
100
300
±7 700 - 900
±6 900 - 1700
±9 1700 - 1800
50
3
200
0.2
±2%
SC, ST, FC, SMA
7Z02413
7Z02413A
7Z02412
1200
>1300
0.8
0.8
50
150
±3 1000 - 1650
±5 <1000&> 1650
±6 1000 - 1650
±8 <1000 &1650
5
1
±300fW at 1550 nm
and 1s average
0.2
±2%
FC, FC/APC, SMA
V1
50
100
7Z02402
(same as above with additionaly calibration point
at 193nm accuracy ±6%)
PD300-UV/PD300-IR filter installed
(φ5mm for PD300-IR only)
PD300-UV/PD300-IR filter off
(φ5mm for PD300-IR only)
PD300-IRG
http://www.unice-eo.com Email : [email protected]
Accessories
Noise Level for filter out pW ±1
Response Time with Meter s 0.2
Beam Position Dependence ±2%
Fiber Adapters Available SC, ST, FC, SMA
Version
PD300-UV:
PD300-UV-193:
Part Number
PD300-IRG
Telecom wavelength fiber and free
space measurements
InGaAs
φ5mm for free space beams
Filter out
Filter in
800 - 1700
950 - 1700
800μW to 10pW
150mW to 20μW
800 μW to 800pW
300mW to 3mW
and dBm
and dBm
0.0001
1
nm
mW
mW
<1000
0.8
100
1100
0.8
30
Light Meters
Accuracy (including errors
due to temp. variations) %
error vs Wavelength nm
Damage Threshold W/cm²
Max Pulse Energy μJ
silicon
10x10mm
Filter out
200 - 1100
3mW to 20pW
3mW to 3nW
and dBm
0.001
nm
mW
250 – 350 3
400
3
PD300-IR
Low powers from 700-1800nm
PD300-IRG with fiber input
Spectrometers
Power Scales
PD300-UV/ PD300-UV-193
Lowest powers from 200-1100nm
PD300-IRG with no fiber input
M2
Model
Use
PD300 with filter installed
Beamprofilers
* Spectral range including UV and IR
* Very large dynamic range
* Swivel mount for hard to measure places
* Comes with filter in / filter out options
* Fiber optic adapters available
PD300 with filter off
G
424
Beamprofilers
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
Round Photodiode Sensors
20pW to 3W
Features
Accessories
Light Meters
Spectrometers
M2
Model
Use
425
PD300R Filter Off
* Round geometry for easy centering
* Threaded to fit standard SM1 bench equipment
* Same performance as standard PD300 sensors
* Comes with removable filter as standard
* Fiber optic adapters available
PD300R
General
PD300R Filter installed
PD300R-UV
PD300R-IR
Lowest powers from
IR wavelengths
200-1100nm
700-1800nm
silicon
silicon
silicon
germanium
Detector
φ10mm
φ10mm
φ10mm
φ5mm
Aperture
Filter out
Filter in
Filter out
Filter in
Filter out
Filter in
Filter out
Filter in
Filter mode
350 - 1100
430 - 1100
350 - 1100
430 - 1100 200 - 1100
220 - 1100
700 - 1800
700 - 1800
Spectral Range nm
Power Range
30mW to 500pW 300mW to 200μW 100mW to 5nW 3W to 200μW 3mW to 20pW 300mW to 2μW 30mW to 5nW 300mW to 200μW
30mW to 30nW 300mW to 30mW 100mW to 300nW 3W to 30mW 3mW to 3nW 300mW to 300 μW 30mW to 30nW 300mW to 30mW
Power Scales
and dBm
and dBm
and dBm
and dBm
and dBm
and dBm
and dBm
and dBm
0.01
NA
0.1
NA
0.001
100
0.01
NA
Resolution nW
mW
nm
nm
nm
mW mW
nm mW
mW mW
mW mW
300
3000
250 - 350 3
300
800
<488 30
<488 100
12 120
300
3000
400
300
1000 - 1300 30 300
3
630
20
633
100
Maximum Power vs.
200
2000
600
300
1400
670
13
670 100
3
30 250
Wavelength
100
1200
800 - 950 2.5 150
1500
790
10
790 100
25 80
100
1200
1064
30
1600
3
30 100
904
10
904 100
250
2200
1800
1064 25
1064 100
30 300
Accuracy (including errors ±10 360 - 400 NA
±10 360 - 400 NA
±6 200 - 270 ±10 220 - 400 ±5 700 - 900 ±7 700 - 900
±3 400 - 950
±5 430 - 950 ±3 270 - 950 ±5 400 - 950
±4 900 - 1700 ±6 900 - 1700
due to temp. variations)% ±3 400 - 950 ±5 430 - 950
error vs Wavelength nm
±5 950 - 1100 ±7 950 - 1100 ±5 950 - 1100 ±7 950 - 1100 ±5 950 - 1100 ±7 950 - 1100 ±7 1700 - 1800 ±9 1700 - 1800
Damage Threshold W/cm² 10
50
10
100
10
50
10
50
2
20
20
500
0.4
15
0.3
3
Max Pulse Energy μJ
Noise Level for filter out pW 20
200
±1
200
Response Time with Meter s 0.2
0.2
0.2
0.2
Beam Position Dependence ±2%
±3%
±2%
±2%
Fiber Adapters Available
FC, ST, SC, SMA
FC, ST, SC, SMA
FC, ST, SC, SMA
FC, ST, SC, SMA
Version
Part Number
7Z02436
7Z02437
7Z02438
7Z02439
PD300R/PD300R-3W/PD300R-UV
PD300R-3W
Powers to 3W
PD300R-IR
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
Special Photodiode Sensors
Power /
Energy Meters
Features
* PD300-BB for broadband light sources - radiometry(PD300-BB-50mW option up to 50mW)
* PD300-CIE for eye adjusted Lux measurements
* BC20 for measuring scanned beams such as bar code light sources
PD300-BB/ / PD300-BB-50mW
BC20
G
PD300-CIE
Beamprofilers
Model
Use
PD300-BB
Radiometry-broad
spectrum
PD300-BB-50mW
Same as PD300-BB with removable
attenuator for use to 50mW
Silicon with special filter Silicon with special filter
Aperture
Spectral Range nm
Filter Mode
Power Range
Power Scales
Resolution nW
10 x 10mm
430 - 1000
10 x 10mm
430 - 1000
Filter out
4mW to 50pW
4mW to 50pW
4mW to 8nW and dBm 4mW to 8nW and dBm
0.001
0.001
Accuracy
Maximum deviation
from flat pectrum
(See graph)
Maximum deviation from flat spectrum
(See graph)
See graph
±10%
10
1
2
±10%
10
1
2
±12%
100
10
30
10
1
±1mLux
0.2
0.2
0.2
Damage Threshold W/cm²
Max Pulse Energy μJ
Noise Level pW
Response Time with Meter s 0.2
±2% for broadband light ±2% for broadband
sources
light sources
Background Subtraction NA
NA
±3% for broadband light NA – source overfills
sources
detector
NA
NA
0.1mW to 20mW
20mW to 2mW
0.001
±3% for >10% of full scale.
Deviation from calibration -3%
at 30,000 inch/s scan rate on
sensor
50
NA
5μW
Two modes of operation:
Hold: holds highest reading for
5s then updates.
No Hold: updates reading 3
times per second.
±2%
Background is automatically
subtracted from both scanned
and static beams.
NA
V1
(a)
7Z02481
PD300-BB-CIE / PD300-BB /
PD300-BB-50mW with filter off
PD300-BB-50mW with filter installed
BC20
http://www.unice-eo.com Email : [email protected]
Accessories
Fiber Adapters Available NA
SC, ST, FC, SMA
NA
Version
Part Number
7Z02405
7Z02440
7Z02406
Notes: (a) Swivel stand for BC20 sensor P/N 1Z09004
(b) The PD300-CIE and BC20 sensors are not fully supported by Ophir PC Interfaces (Juno, USBI, Pulsar and Quasar) or by StarLite Meter.
(c) The User can select up to 5 wavelengths from the spectral range. When used with Nova or LaserStar meters, the sensor will only have the discrete
wavelengths 405nm, 633nm, 650nm, 675nm and 780nm
Light Meters
Beam Position Dependence
Filter in
50mW to 1nW
200kLux to 20 mLux
50mW to 80nW and dBm 200kLux to 200 mLux
0.01
1 mLux
Spectrometers
Detector Type
M2
PD300-CIE (b)
BC20 (b)
Eye adjusted
Scanned beams e.g. bar
measurement in Lux
code
Silicon with peak and hold
Silicon with special filter
circuit
Active area 2.4 x 2.8mm 10 x 10mm
400 - 700
400 - 1100 (c)
426
Temperature Coefficient of Sensitivity
PD300 Angle Dependence
Dependence of Sensitivity on Numerical Aperture
(PD300 - IRG)
PD300-CIE spectral response vs. CIE curve
Light Meters
Spectrometers
M2
Beamprofilers
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
Note:
1. Graph assumes equal intensity into all angles up to maximum N.A.
2. Calibration is done with SMF, N.A. 0.13
Relative Spectral Response of BC20
Accessories
Typical Sensitivity Curve of PD300-BB Sensors
Graph of the approximate relative spectral response of the
BC20 for purpose of interpolation, if the instrument is to be
used at a wavelength other than the ones that are factory
calibrated
427
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
Fast Photodetector - Model FPS-1
* Fast 1ns response time
* Measure temporal pulse shape of short or long pulses
* Wide spectral range 193 – 1100nm
* Optional attenuators and fiber adapters available
* Battery or wall cube operation
The FPS-1 fast photodetector is a compact easy to use very fast photodetector with wide spectral response. It is used to
measure the temporal pulse shape of laser pulses. It has two modes of operation: Into 50Ohm load for ns high peak power
pulses and 10kOhm load for longer lower peak power pulses. In order to adjust the input intensity to the level appropriate
for the detector, you may scatter the laser light off of a white matt surface and back off till the appropriate intensity is
reached. Alternatively, or in addition, you may procure the ND attenuators listed below which may be stacked.
Beamprofilers
Description
Power /
Energy Meters
Features
G
Specifications of the FPS-1 Fast Photodetector
Spectrometers
Input
Dimensions
Thread
Sensor Part Number
Optional Accessories and P/N
Light Meters
Silicon PIN photodiode
193nm – 1100nm
2
0.8mm
720nm
See graph below
Into 10k Ω load
Into 50Ω load
2
2
60V for 1W/cm input
0.15V for 1W/cm input
3μs
1.5ns
10V
12V A23 alkaline battery (40 hours lifetime). Also can be operated from 12VDC wall cube power supply.
The power supply can be ordered from your local distributor
Direct beam or from fiber connection.
See drawing
Front flange is threaded with male SM1 thread.
7Z02505
FPS-1 fast photodiode
7Z08200
ND1 nom. x10 attenuator
7Z08201
ND2 nom. x50 attenuator
Fiber adapters
SMA
1G01236
FC
7Z08229
SC
7Z08227
ST
7Z08226
SM1 to M20 adapter (1 necessary for above adapters and/or attenuators) 1G02259
M2
Detector
Spectral Range
Detector Area
Wavelength of Peak Sensitivity
Spectral Response
Performance Specs
Sensitivity at Peak Wavelength
Risetime 10 - 90%
Maximum Output Voltage
Power Supply
Accessories
http://www.unice-eo.com Email : [email protected]
428
LED measurement – UV, VIS, NIR
20pW to 3W
Features
* 20pW to 3W
* 200nm to 1100nm
* Photodiode detectors - spectrally calibrated for LEDs and lasers
* Thermal sensors - power measurement is insensitive to Wavelength
* Fiber or free space input
* Compatible with all Ophir meters, acquisition devices and StarLab PC software
3A-IS
PD300 with filter off
PD300R with filter off
3A
M2
Beamprofilers
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
Accessories
Light Meters
Spectrometers
Model
Use
429
Detector Type
Input Port Aperture mm
Filter Mode
Spectral Range µm
Power Range
Power Scales
3A-IS
Compact integrating
sphere
Silicon
Φ12
0.35 - 1.1
1µW - 3W
3W to 3µW
and dBm
1
3W
PD300-UV
Standard photodiode sensor
for UV-NIR
Silicon
10 x 10
Filter out
0.2 - 1.1
3mW - 20pW
3mW to 3nW
and dBm
0.001
3mW
±6 200 - 270
±3 270 - 950
±5 950 - 1100
10
0.4µJ
1pW
0.2
±2%
0.5
SMA,FC,ST,SC
0.07
PD300R-UV
Round photodiode sensor
for UV-NIR
Silicon
Φ10
Filter in
Filter out
0.22 - 1.1
0.2 - 1.1
300mW - 2µW
3mW - 20pW
300mW to 3µW 3mW to 3nW
and dBm
and dBm
100
0.001
300mW
3mW
±10 220 - 400 ±6 200 - 270
±5 400 - 950 ±3 270 - 950
±7 950 - 1100 ±5 950 - 1100
50
10
15µJ
0.4µJ
1pW
0.2
±2%
0.5
SMA,FC,ST,SC
0.11
Resolution nW
Maximum Power
Accuracy(including error due
±5 350 - 1000
to temp variations)%Error vs
±10 1000 - 1100
Wavelength nm
2
Damage Threshold W/cm 200
Max Pulse Energy
5mJ
Noise Level for Filter Out 20nW
Response Time with Meter s 0.2
Beam Position Dependence N.A.
Linearity with Power +/- % 1
Fiber Adapters Available SMA(a),FC,ST,SC
Weight kg
0.6
Version
V1
Part Number
7Z02404
7Z02413
Notes: (a)One fiber output port available with output = 2E-4 of input power / mm2 of fiber area.
Filter in
0.22 - 1.1
300mW - 2µW
300mW to 300µW
and dBm
100
300mW
±10 200 - 400
±5 400 - 950
±7 950 - 1100
50
15µJ
7Z02438
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
3A
spectrum response.
Thermal sensor.Flat
For fiber coupled source
Thermal
Φ 9.5
0.19 - 20
10µW - 3W
3W - 300µW
100
3W
±3%
1000
2J
2µW
1.8
±2%
1.5
SMA,FC,ST,SC
0.2
7Z02621
Light Analysis : Energy & Spectrum
Integrating Spheres
Features
* Integrating sphere for divergent beams
* φ12mm aperture
* For fiber or free space input
3A-IS
3A-IS-IRG
Power /
Energy Meters
Small Dimensions 1.5”
G
Beamprofilers
Model
Use
3A-IS
Divergent beams to 3W for visible NIR
Spectrometers
InGaAs
φ 12mm
0.8 - 1.7
1μW - 3W
3W to 3μW and dBm
±5
1
0.2 on integrating sphere surface
5
20
0.2
±40 degrees
±2%
convection
(a)
SC, ST, FC, SMA
0.6
M2
7Z02403
3A-IS/ 3A-IS-IRG
Light Meters
Absorber Type
Si
Input Port Aperture mm
φ 12mm
Spectral Range μm
0.35 - 1.1
Power Range
1μW - 3W
Power Scales
3W to 3μW and dBm
%Error vs Wavelength nm
±5 350-1000,±10 1000-1100
Linearity with Power +/-%
1
Damage Threshold kW/cm²
0.2 on integrating sphere surface
Maximum Pulse Energy mJ
5
Power Noise Level nW
20
Response Time with Meter s
0.2
Maximum Beam Divergence
±40 degrees
Sensitivity to Beam Size and Angle
±2%
Cooling
convection
(a)
Fiber Adapters Available
SC, ST, FC, SMA
Weight kg
0.6
Version
V1
Part number
7Z02404
Notes: (a) One fiber output port available with output = 2E-4 of input power/mm2 of fiber area.
3A-IS-IRG
Divergent beams to 3W for IR
Accessories
http://www.unice-eo.com Email : [email protected]
430
M2
Beamprofilers
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
Integrating Spheres
Large Dimensions 5.3”
Features
* 4 port Integrating spheres for collimated and divergent beams
* φ63.5mm (2.5”) aperture
* Fiber or free space input
* Uncalibrated – detectors for user installation
Model
Detector
Spectral Range μm
Source Geometry(a) (see introduction)
Input Port Aperture mm
Maximum Beam Divergence
Sensitivity to Beam Size and Angle
Power Range
Damage Threshold kW/cm²
Cooling
Weight kg
Version
Part number
IS6-C For collimated beams (large plug)
IS6-D For divergent beams (small plug)
IS6
none – see below for detectors
0.2 – 2.2
Divergent
Collimated
φ63.5 (2.5”)
φ25.4 (1”)
±40deg
NA
±2%
±2%
Depends on detector – see below
0.2 on integrating sphere surface
Convection
1.3
7Z02474
7Z02475
Light Meters
Spectrometers
Notes (a) In each configuration, the opposing port is closed with a port plug.
Detectors for IS6
These detectors are inserted into the 1” ports and are not calibrated but are linear and will give
an approximate reading when used with Ophir meters and PC interfaces
Detector type Model
Use
Type
Spectral Range μm
Power range (approx.)
Noise level nW (approx.)
Linearity with power ±%
Part number
VIS
UV
IS-PD300R-VIS-NC IS-PD300R-UV-NC
High powers
Low powers
Si with filters
430-1100
30W to 1 μW
50
1
7Z08310U
Si
220-1100
1W to 10nW
0.4
1
7Z08311U
IR
IS-PD300R-IR-NC
Near infrared
Ge
700-1800
30W to 30nW
50
1
7Z08312U
CIE
IS-PD300R-CIE-NC
Photometry
Si with CIE filter
400-700
500lm to 100 μlm
5μlm
1
7Z08313U
Accessories for IS6
Accessories
Accessory
Port plugs
IS-1” Port plug
IS-2.5” Port plug
Port covers
IS-1” Port cover
IS-2.5” Port cover
Adapters and reducers
1” SMA fiber adapter
1” FC fiber adapter
2.5” to 1” reducer
1” to SM1 adapter
1” to C mount adapter
1” to C mount reducer
431
Description
Port plugs close ports with matte white reflective integrating sphere
material. They eliminate the port from the sphere geometry.
White reflectance coated ȴ25.4mm plug
White reflectance coated ȴ63.5mm plug
Port Covers close ports with a black matt surface. They prevent
extraneous light from entering the sphere without changing the sphere
configuration. These covers can also be used as blanks for making
specialized port adapters.
Matt black coated ȴ25.4mm plug
Matt black coated ȴ63.5mm plug
The adapters are black coated and the reducers white coated
Attaches to the 1” port for SMA fiber input/output
Attaches to the 1” port for FC fiber input/output
Attaches to the 2.5” port and turns it into a 1” port
Attaches to the 1” port and has a female SM1 thread
Attaches to the 1” port and has a female C mount thread
Attaches to the 1” port. Has a male C mount thread and 11mm aperture
Part Number
7Z08280A
7Z08283A
7Z08282A
7Z08281A
7Z08285
7Z08286
7Z08287
7Z08289
7Z08290
7Z08288
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
High Sensitivity Sensors – Radiometer
RM9-PD Sensor
Beamprofilers
Features
* Chopper and lock in amplifier for lowest noise and drift
* Wavelength range from UV to deep IR
* RM9 pyro is not sensitive to background radiation
Specifications
RM9 Sensor
Model
Use
M2
Interface Module
Light Meters
3. 0.5 meter cable from module terminated in DB15 connector
Cooling
Weight kg
Version
Part Number for RM9 and RMC1 Chopper (f)
Part Number for RM9 Sensor
convection
0.37
convection
0.37
7Y70669
7Z02952
7Y70672
7Z02953
Model
Use
Radiometer-Chopper
Accessories
Notes:
(a) At calibrated wavelengths 500 – 1100nm. At other wavelengths, there is an additional
error as follows: <500nm add ±8%, 1100 – 3000nm add ±5%, 10.6μm add ±15%
(b) At calibrated wavelengths 200 – 1100nm. For <700nm add ±2% additional error
(c) For LaserStar, Pulsar, USBI, Quasar and Nova/Orion, upper limit is ~1mW. Accuracy
may also be less than values given above
(d) Averaged over 10s
(e) In a typical laboratory environment
(f ) The RMC1 or another chopper unit that can be set to 18Hz is required for operation of
the RM9 sensor
Spectrometers
RM9
RM9-PD
Very low level signals
Absorber Type
Pyroelectric
Si Photodiode
(a)
(b)
Spectral Range μm
0.2 - 1.1
0.15 - 12
Aperture mm
φ8mm
φ8mm
Surface Reflectivity % approx.
50
50
(c)
100nW – 100mW 300fW – 300nW
Power Range
Power Scales
100mW to 3μW 300nW to 3pW
(d)
~30nW
30fW
Power Noise Level
Minimum Frequency for Pulsed Sources 200Hz
200Hz
(e)
~30nW
N.A.
Thermal Drift (20min).
(a)(b)
±5%
±5%
Power Accuracy
Maximum Average Power Density W/cm² 30
30
Response Time with Display (0-95%)
3.5s
3.6s
Linearity with Power
±2%
±2.5%
Connections
1. 1.5 meter cable hard wired to interface module
2. BNC connector on module for connection to chopper (2 meter BNC to
BNCcable included). Perform zeroing with BNC cable removed
Power /
Energy Meters
300fW to 100mW
G
RMC1 Chopper
Chopper for RM9/RM9-PD
Aperture
φ22mm
18Hz
Chopping frequency (a)
Power consumption
85mA
Connections:
1. BNC to interface module
2. 12V power supply input (wall cube power supply included)
3. Mini USB connector (factory use only)
Notes: (a) not adjustable by user.
http://www.unice-eo.com Email : [email protected]
432
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
Thermal Power Sensors Table of contents
High Sensitivity Thermal Sensors - 8μW - 12W
3A-FS
3A-P-FS-12
Beamprofilers
3A / 3A-P / 3A-P-THz
Features
Aperture
Very low powers
Low powers and energies
As above with higher UV pulsed damage threshold
3A-P sensor calibrated for Terahertz
Lowest powers, Fused Silica window
For divergent beams, window blocks infrared
Wide dynamic range to 12W
Short pulse lasers to 12W
3A
3A-P
3A-PF-12
3A-P-THz
3A-FS
3A-P-FS-12
12A
12A-P
Ø9.5mm
Ø12mm
Ø12mm
Ø12mm
Ø9.5mm
Ø12mm
Ø16mm
Ø16mm
Spectral Range
0.19-20 μm
0.15-8 μm
0.15-20μm
0.3-10THz
0.19-20 μm
0.22 - 2.1 μm
0.19-20 μm
0.15-8 μm
Power Range
Energy Range
20μJ-2J
20μJ-2J
20μJ-2J
20μJ-2J
15μJ-2J
20μJ-2J
1mJ-30J
1mJ-30J
10μW-3W
15μW-3W
15μW-3W
15μW-3W
8μW-3W
15μW - 3W
2mW-12W
2mW-12W
Low Power Thermal Sensors - 20mW-50mW (Continuous) / 150W (Intermittent)
10A
30A-BB-18
L30A-10MM
50(150)A-BB-26
Light Meters
Spectrometers
M2
Sensor
Accessories
Sensor
433
10A
30A-BB-18
L30A-10MM
50(150)A-BB-26
10A-P
30A-P-17
50A-PF-DIF-18
15(50)A-PF-DIF-18
30A-N-18
Features
General purpose to 10W
General purpose to 30W
Thin Profile to 30W
General purpose to 50W, 150W intermittent
Pulsed lasers up to 10W
Short pulse lasers to 30W
High energy density pulsed beams
As above, compact for intermittent use
High power density pulsed YAG
Aperture
Ø16mm
Ø17.5mm
Ø26mm
Ø26mm
Ø16mm
Ø17mm
Ø17.5mm
Ø17.5mm
Ø17.5mm
Spectral Range
0.19-20μm
0.19-20μm
0.15-20μm
0.19-20μm
0.15-8μm
0.15-8μm
0.24 - 2.2μm
0.24 - 2.2μm
0.532, 1.064μm
Power Range
20mW-10W
20mW-30W
80mW-30W
40mW-150W
40mW-10W
60mW-30W
140mW-50W
140mW-50W
60mW-30W
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Energy Range
6mJ-2J
6mJ-30J
20mJ-60J
20mJ-100J
10mJ-10J
40mJ-30J
60mJ-200J
60mJ-200J
30mJ-200J
Light Analysis : Energy & Spectrum
30(150)A-SV-17 /
30(150)A-HE-17
Diffuser installed
Diffuser off
L30-C-SH
100C-SH
Power /
Energy Meters
Low-Medium Power Thermal Sensors - Apertures 12mm to 35mm, 10mW - 150W
G
Beamprofilers
Features
Spectral Range Power Range Energy Range
30(150)A-BB-18
30(150)A-LP1-18
L50(150)A-BB-35
L50(150)A-LP1-35
L50(150)A-PF-35
30(150)A-SV-17
CW to 30W, intermittent to 150W
As above, high damage threshold for long pulses and CW
CW to 50W, intermittent to 150W
CW to 50W, intermittent to 150W high damage threshold for long pulses
CW to 50W, intermittent to 150W for short pulse lasers
Very high damage threshold, 30W continuous 150W intermittent
Ø17.5mm
Ø17.5mm
Ø35mm
Ø35mm
Ø35mm
Ø17mm
0.19-20μm
0.25-2.2μm
0.19-20μm
0.25-2.2μm
0.15-20μm
0.19-12μm
0.19-0.625μm,
1.064 μm,
2.1μm, 2.94 μm
0.19-3μm except for
625-900nm
0.19-20μm
0.19-20μm
0.25-2.2 μm
0.19-20μm
0.19-20μm
0.19-20μm
30(150)A-HE-17
High energy and average power YAGs and harmonics 30W continuous 150W
Ø17mm
intermittent
30(150)A-HE-DIF-17 For highly concentrated Q switched pulses to 30W, intermittent to 150W
Ø17mm
20C-SH
L30C-SH
L30C-LP1-26-SH
100C-SH
150C-SH
150W-SH
Ø12mm
Ø26mm
Ø26mm
Ø18mm
Ø18mm
Ø18mm
Compact smart sensor
Medium aperture, smart sensor
As above with LP1 absorber for high pulse energies
Low profile, smart sensor
High power, smart sensor
High power, water cooled smart sensor
30mW-150W
30mW-150W
100mW-150W
100mW-150W
100mW-150W
100mW-150W
20mJ-100J
20mJ-300J
40mJ-300J
40mJ-300J
50mJ-300J
50mJ-300J
50mW-150W
60mJ-200J
50mW-150W
60mJ-200J
10mW-20W
80mW-50W
80mW-100W
60mW-100W
60mW-60W
60mW-150W
6mJ-10J
30mJ-30J
30mJ-2000J
N.A
20mJ-100J
20mJ-100J
Spectrometers
Aperture
M2
Sensor
Medium Power Thermal Sensors - Apertures 50 to 65mm, 100mW - 300W
Features
CW to 35W, intermittent to 150W, large aperture
As above, high damage threshold for long pulses
As above for excimer lasers
CW to 50W, intermittent to 150W
CW to 50W, intermittent to 300W, very large aperture
As above, high damage threshold for CW and long pulses
CW to 50W, intermittent to 300W, large beam short pulses
For gel coupled IPL sources
L50(150)A
Aperture
Ø50mm
Ø50mm
Ø50mm
Ø50mm
Ø65mm
Ø65mm
Ø65mm
Ø65mm
Spectral Range
L50(300)A-IPL
Power Range Energy Range
0.19-20μm
100mW-150W
0.25-2.2μm, 2.94μm 100mW-150W
0.15-0.7μm, 10.6μm 100mW-150W
0.19-20μm
100mW-150W
0.19-20μm
400mW-300W
0.25-2.2μm
400mW-300W
0.15-20μm
400mW-300W
0.5-1.1μm
400mW-300W
Accessories
Sensor
L40(150)A
L40(150)A-LP1
L40(150)A-EX
L50(150)A
L50(300)A
L50(300)A-LP1
L50(300)A-PF-65
L50(300)A-IPL
L40(150)A –EX
Light Meters
L40(150)A / L40(150)A -LP1
100mJ-200J
100mJ-300J
100mJ-200J
100mJ-300J
200mJ-300J
200mJ-300J
200mJ-300J
120mJ-300J
http://www.unice-eo.com Email : [email protected]
434
Medium-High Power Fan Cooled Thermal Sensors – 50mW – 500W
F100A-PF-DIF-33
FL250A-BB-35 / FL250A-LP1-35
FL600A-BB-65/
FL600A-LP1-65/
FL1100A-BB-65
FL250A-LP1-DIF-33
Sensor
Features
F100A-PF-DIF-33
F150A-BB-26
FL250A-BB-35
FL250A-LP1-35
FL250A-LP1-DIF-33
FL250A-BB-50
FL400A-BB-50
FL400A-LP1-50
FL600A-BB-65
FL600A-LP1-65
FL1100A-BB-65
High average power, short pulse lasers
Fan cooled to 150W
Fan cooled to 250W
As above, high damage threshold for long pulses and CW
Fan cooled to 250W with diffuser for high power and energy density
Fan cooled to 250W, large aperture
Fan cooled to 400W
Fan cooled to 400W, high power densities and long pulses
Fan cooled to 600W
Fan cooled to 600W for long pulsed lasers
Fan cooled to 1100W
Aperture
Ø33mm
Ø26mm
Ø35mm
Ø35mm
Ø33mm
Ø50mm
Ø50mm
Ø50mm
Ø65mm
Ø65mm
Ø65mm
Spectral Range
Power Range Energy Range
0.24-2.2μm
0.19-20μm
0.19-20μm
0.25-2.2μm
0.4-3μm
0.19-20μm
0.19-20μm
0.35-2.2μm, 10.6μm
0.19μm-20μm
0.35μm-2.2μm
0.19μm-20μm
50mW-100W
50mW-150W
150mW-250W
150mW-250W
400mW-250W
150mW-250W
300mW-400W
300mW-400W
500mW-600W
500mW-600W
1W-1100W
60mJ-200J
20mJ-100J
50mJ-300J
50mJ-300J
400mJ-600J
80mJ-300J
75mJ-600J
75mJ-600J
250mJ-600J
250mJ-600J
250mJ-600J
M2
Beamprofilers
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
High Power Water Cooled Thermal Sensors - 1W – 10kW
Accessories
Light Meters
Spectrometers
1000W-BB-34 /
1000W-LP1-34
Sensor
L250W
L300W-LP1-50
1000W-BB-34
1000WP-BB-34
1000W-LP1-34
L1500W-BB-50
L1500W-LP1-50
L2000W-BB-120
L100(500)A-PF-120
5000W-BB-50
5000W-LP1-50
6K-W-BB-200x200
Protective Housing
Mounted on Sensor
(closed shutter)
Protective Housing
Mounted on Sensor
(open shutter)
Features
Aperture
Thin profile, 20mm thick, water cooled to 250W
Thin profile, 20mm thick, water cooled to 300W
Water cooled to 1000W
Water cooled to 1000W with non contaminating water circuit
Water cooled to 1000W, high power densities and long pulses
Water cooled to 1500W
As above, high power densities and long pulses
Water cooled to 2000W. Very large aperture 120mm
For short exposures, measure energies to 6000J
Water cooled to 5000W
As above, high power densities and long pulses
Very large aperture 200x200mm to 6000W. Calorimetric measurement
Ø50mm
Ø50mm
Ø34mm
Ø34mm
Ø34mm
Ø50mm
Ø50mm
Ø120mm
Ø120mm
Ø50mm
Ø50mm
198x198mm
Spectral Range Power Range Energy Range
0.19-20μm
0.35-2.2μm, 10.6μm
0.19-20μm
0.19μm-20μm
0.35-2.2μm, 10.6μm
0.19-20μm
0.35-2.2μm, 10.6μm
0.19-20μm
0.15-20ȫm
0.19-20μm
0.35-3.2μm
0.19-20μm
1W-250W
4W-300W
5W-1000W
5W-1000W
5W-1000W
15W-1500W
15W-1500W
1W-2000W
1W-500W
20W-5000W
20W-5000W
200W-600W
120mJ-200J
200mJ-300mJ
300mJ-300J
400mJ-300J
400mJ-300J
500mJ-200J
500mJ-200J
2J-6000J
2J-6000J
N.A.
N.A.
N.A.
Very High Power Water Cooled Thermal Sensors - 100W – 120kW
10K-W-BB-45
30K-W-BB-74
Sensor
Features
10K-W-BB-45
30K-W-BB-74
120K-W
435
L2000W-BB-120
Laser Beam Absorbing Chamber
and Power Measuring Unit
Aperture
Water cooled to 10,000W, very high power densities Ø45mm
Water cooled to 30,000W, high power densities Ø74mm
Water cooled to 100,000W. Highest powers
Ø200mm
Spectral Range
0.8-2μm, 10.6μm
0.8-2μm, 10.6μm
0.8-1.1μm
Laser Beam Path
Power Range
100W-11kW
100W-30kW
10kW-120kW
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Energy Range
N.A.
N.A.
N.A.
Light Analysis : Energy & Spectrum
Power Pucks 20W – 10kW
Comet 10K
Features
Aperture
Comet 1K
Comet 10K
Comet 10K-HD
Portable low-cost power probe with low powers
Portable low-cost power probe with high powers
Portable low-cost power probe with high damage threshold
Ø50mm
Ø100mm
Ø55mm
Spectral Range
0.2-20μm
1.06μm and 10.6μm
1.06μm and 10.6μm
Power Range Energy Range
20W-1000W
200W-10,000W
200W-10,000W
N.A.
N.A.
N.A.
Beamprofilers
Sensor
Comet 10K-HD
Power /
Energy Meters
Comet 1K
G
Beam Dumps up to 10kW
BDFL500A-BB-50
BDFL1500A-BB-65
BD5000W-BB-50
Features
Aperture
fan cooled beam dump up to 500W
Water cooled beam dump up to 1500W
Water cooled beam dump up to 5000W
Ø50mm
Ø65mm
Ø50mm
BD5000W-BB-50
Spectral Range
0.19-20μm
0.19-20μm
0.8-20μm
Power Range Energy Range
up to 500W
up to 15000W
up to 50,000W
N.A.
N.A.
N.A.
Light Meters
BeamTrack – Power / Position / Size Sensors
3A-QUAD / 3A-P-QUAD
10A-PPS
Spectrometers
Sensor
BDFL1500A-BB-65
M2
BDFL500A-BB-50
FL250A-BB-50-PPS
1000W-BB-34-QUAD
Track Screen on Nova II
Accessories
Sensor
3A-QUAD
3A-P-QUAD
10A - PPS
50(150)A-BB-26-PPS
50(150)A-BB-26-QUAD
F150A-BB-26-PPS
FL250A-BB-50-PPS
1000W-BB-34-QUAD
Features
Power & position, very low powers up to 3W
As above for short pulse lasers
Power, position & size to 10W
Power, position & size to 50W, 150W intermittent
As above, power and position only
Power, position & size to 150W
Power, position & size to 250W, large aperture
Power & position, high powers up to 1000W
Aperture
Ø9.5mm
Ø12mm
Ø16mm
Ø26mm
Ø26mm
Ø26mm
Ø50mm
Ø34mm
Spectral Range
Power Range Energy Range
0.19-20μm
0.15-8μm
0.19-20μm
0.19-20μm
0.19-20μm
0.19-20μm
0.19-20μm
0.19-20μm
100µW-3W
160µW-3W
20mW-10W
40mW-150W
40mW-150W
50mW-150W
150mW-250W
5W-1000W
20µJ-2J
30µJ-2J
6mJ-2J
20mJ-100J
20mJ-100J
20mJ-100J
80mJ-300J
500mJ-300J
http://www.unice-eo.com Email : [email protected]
436
Power Sensors Accessories
Accessories for PD300 Sensors
PD300 with F.O. Adapter Mounted
Accessories for Thermal Senors, PD300R, PD300-IRG, 3A-IS and FPS-1
SC fiber adapter
ST fiber adapter
FC fiber adapter
Accessories
Light Meters
Spectrometers
M2
Beamprofilers
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
437
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
SMA fiber adapter
Light Analysis : Energy & Spectrum
Photodiode and Pyroelectric Energy Sensors
Power /
Energy Meters
Photodiode Energy Sensors - 10pJ - 20μJ
PD10-C / PD10-pJ-C / PD10-IR-pJ-C
Features
* Silicon and Germanium detectors
* Very sensitive - down to 10pJ
* Repetition rates to 20kHz
* Wide spectral range
Features
PD10-C
PD10-pJ-C
PD10-IR-pJ-C
Aperture Spectral Range Energy Range Maximum Frequency
Very low energies down to nJ, Silicon photodiode
Lowest energies down to pJ, Silicon photodiode
Lowest energies down to pJ, Germanium photodiode
Ø10mm
Ø10mm
Ø5mm
0.19-1.1μm
0.2-1.1μm
0.7-1.8μm
1nJ-20μJ
10pJ-200nJ
30pJ-20nJ
20,000Hz
20,000Hz
10,000Hz
Beamprofilers
Sensor
G
Pyroelectric Energy Sensors - 0.2μJ - 10J
PE10-C
PE25BF-C
PE50-C
Energy Sensor with optional heat sink
M2
Features
Aperture Spectral Range Energy Range Maximum Frequency
Pyroelectric for very low energies
Pyroelectric for lowest energies
Pyroelectric for low energies
As above, high damage threshold
Medium aperture pyroelectric
As above, high damage threshold
Large aperture pyroelectric
As above, high damage threshold
Ø8mm
Ø8mm
Ø12mm
Ø12mm
Ø24mm
Ø24mm
Ø46mm
Ø46mm
0.15-12μm
0.15-12μm
0.15-12μm
0.15-3μm, 10.6μm
0.15-3μm
0.15-3μm, 10.6μm
0.15-3μm
0.15-3μm, 10.6μm
0.2μJ-1mJ
0.05-200μJ
1μJ-10mJ
7μJ-10mJ
8μJ-10J
60μJ-10J
10μJ-10J
120μJ-10J
25,000Hz
25,000Hz
25,000Hz
250Hz
10,000Hz
250Hz
10,000Hz
250Hz
Light Meters
High Energy Pyroelectric Sensors - 10μJ - 40J
PE50BF-DIF-C / PE50BF-DIFH-C
PE50BB-DIF-C
Sensor
PE50-DIF-C
PE25BF-DIF-C
PE50BF-DIF-C
PE50BF-DIFH-C
PE50BB-DIF-C
PE50-DIF-ER-C
PE100BF-DIF-C
FPE80BF-DIF-C
PE100BF-DIF-C
DIFFUSER OUT
DIFFUSER IN
Spectral
Range
Pyroelectric with diffuser, high repetition rate. Complete calibration Ø35mm
0.19-2.2,2.94μm
Pyroelectric with diffuser for high damage threshold. Complete
Ø20mm
0.24-2.2μm
Pyroelectric with diffuser for highest damage threshold. Complete
0.19-2.2μm,0.94μm
Ø35mm
Similar to PE50BF-DIF-C but with higher damage threshold
Ø35mm
0.19-2.2μm, 2.94
0.19-20μm,
Ø46mm
Pyroelectric with removable diffuser. Wide spectral range w/o diffuser
Ø33mm with diffuser 0.4-2.5μm with diffuser
Ø46mm
0.19-3μm,
Pyroelectric with removable diffuser. Especially for Erbium laser
Ø33mm with diffuser 0.4-3μm with diffuser
Ø96mm
0.15-3μm,
Largest aperture pyroelectric with removable diffuser
Ø85mm with diffuser 0.4-2.5μ m with diffuser
Fan cooled pyroelectric for high ave powers to 200W
Ø 53mm
0.19-2.2μm, 2.94
Features
Aperture
DIFFUSER OUT
Energy
Range
20μJ-10J
100μJ-10J
200μJ-10J
200μJ-10J
Accessories
DIFFUSER IN
Spectrometers
Sensor
PE9-C
PE9-ES-C
PE10-C
PE10BF-C
PE25-C
PE25BF-C
PE50-C
PE50BF-C
Maximum
Frequency
10,000Hz
250Hz
250Hz
250Hz
100μJ-40J 40Hz
10μJ-30J
10,000Hz
400μJ-40J 200Hz
1mJ-40J
250Hz
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438
Energy Sensors Accessories
Accessories for Pyroelectric Sensors
M2
Beamprofilers
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
Fiberoptic Adapter for
Pyroelectric Sensors
Oscilloscope Adapter for
Pyroelectric Sensors
Beam splitter installed - reflected deam on-sensor
Heat Sink for
PE-C Series Sensors
Beam splitter removed - direct deam on-sensor
Material
Spectral range
Aperture
Damage threshold for pulses
Fraction split off
UV grade fused silica
0.19 - 2.2μm
Ø60mm
< 10ns PW >300μs PW 5J/cm2 >300μ s PW >200J/cm2
See graph
Light Meters
Spectrometers
Beam Splitter Specifications
Damage Threshold Test Plates
Nova PE-C Adapter
Accessories
Accessory
Heat Sink
Scope Adapter
PE Sensor Family Type
PD10-C / PD10-pJ-C / PD10-IR-pJ-C
PE50-C / PE50BF-C
PE9-C / PE9-ES-C / PE10-C / PE10BF-C /
PE25-C / PE25BF-C
Fiber Adapters
Beam Splitter Assembly
439
PE-C to PE Size Adapter
Description
Heat sink that screws onto rear of PE25 and PE50 series sensors and
allows working at over 50% higher average powers.
Plugs in between the PE sensor and power meter. Provides BNC output to
scope to see every pulse up to the maximum frequency of the sensor.
Distance from fiber to detector
10mm
15mm
10mm
Fiber adapters for mounting to above brackets
SC type
ST type
FC type
SMA type
Beam Splitter Assembly to measure pulsed laser sources too energetic for
direct measurement. The reading with the Beam Splitter can be calibrated
by setting the laser to a lower energy that will not damage the sensor and
then taking a measurement with the beam splitter and without and taking the ratio.
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Part Number
7Z08267
1Z11012 (non-RoHS)
7Z08275
7Z08270
7Z08269
7Z08227
7Z08226
7Z08229
1G01236
7Z17001
Light Analysis : Energy & Spectrum
OEM Power and Energy Sensors
G
Power /
Energy Meters
Sensor
Features
Aperture
Ø12mm
Ø12mm
Ø12mm
Ø9.5mm
10x10mm
Ø26mm
Ø26mm
Ø26mm
Ø26mm
Ø18mm
Ø18mm
Ø18mm
0.19-20μm
0.19-20μm
0.19-20μm
0.19μm-20μm
0.2-1.1μm
0.19-20μm
0.25-2.5μm
0.19-20μm
0.19-20μm
0.19-20μm
0.19-20μm
0.19-20μm
10mW-20W
10mW-20W
10mW-20W
100μW-3W
100pW-50mW
80mW-50W
80mW-100W
80mW-50W
80mW-50W
60mW-100W
60mW-100W
60mW-100W
38x38x14mm
34x38x34mm
38x38x14mm
50x50x38mm
38x38x32mm
60x60x38mm
60x60x38mm
60x60x38mm
60x60x38mm
48x48x14.5mm
48x48x14.5mm
48x48x14.5mm
Ø26mm
0.19-20μm
40mW-100W
60x60x36mm
Ø18mm
Ø18mm
Ø18mm
Ø18mm
Ø18mm
Ø50mm
Ø50mm
Ø50mm
Ø50mm
Ø50mm
Ø50mm
0.19-20μm
0.19-20μm
0.19-20μm
0.19-20μm
0.19-20μm
0.19-20μm
0.19-20μm
0.19-20μm
0.19-20μm
0.19-20μm
0.19-20μm
60mW-60W
60mW-60W
60mW-60W
100mW-150W
100mW-150W
0.2W-150W
0.2W-150W
0.3W-250W
0.3W-250W
0.5W-300W
0.5W-300W
50.8x50.8x33mm
50x50x38mm
50x50x38mm
50x50x38mm
50x50x38mm
80x80x45mm
80x80x45mm
80x80x58mm
80x80x58mm
80x80x58mm
80x80x58mm
PE10-C-RE
Features
Aperture
Spectral Range
PE-C-RE
Energy Range
Max. Freq.
Size
PE10-C-RE Non amplified compact sensor
Ø12mm
0.19-10.6μm
Depends on configuration Depends on configuration 22 x 7.5mm
PE-C-RS232 PE smart sensors with built in output choose from standard PE-C choose from standard PE-C same as equiv. PE-C
same as equiv. PE-C
same as std PE-C
PE-C-RE
Custom smart PE sensors
usually 10mm
0.19-10.6μm
same as equiv. PE-C
same as equiv. PE-C
Can be very small
Accessories
Sensor
PE XX-C-RS232
Light Meters
Standard OEM Pyroelectric Energy Sensors - 1μJ - 10J
Spectrometers
Compact smart sensor
compact, built in amplifier (RS232/analog)
Compact, external amplifier (USB/analog)
Low power, built in amplifier (RS232/analog)
compact, photodiode, built in amplifier (RS232/analog)
Medium aperture, smart sensor
As above with LP1 absorber for high pulse energies
Medium aperture, built-in amplifier (RS232/analog)
Medium aperture, built-in amplifier (USB)
Low profile, smart sensor
Low profile, separate amplifier (RS232/analog)
Low profile, separate amplifier (USB)
High power, very fast response (50ms) built in amplifier,
100W-UAF
water cooled (RS232/analog)
150C-SH
High power, smart sensor
150C-UA
High power, built-in amplifier (RS232/analog)
150C-UAU
High power, built-in amplifier (USB)
150W-UA
High power, built-in amplifier, water cooled(RS232/analog)
150W-UAU
High power, built-in amplifier, water cooled
L150C-UA
Large aperture, built-in amplifier (RS232/analog)
L150C-UAU
Large aperture, built-in amplifier (USB)
L250W-UA
Large aperture, built-in amplifier, water cooled (RS232/analog)
L250W-UAU
Large aperture, built-in amplifier, water cooled (USB)
L300W-UA
Large aperture, built-in amplefier, water cooled (RS232/analog)
L300W-UAU
Large aperture, built-in amplifier, water cooled (USB connection)
Note: (a) Effective Dynamic Range for a given sensor is ~ 30:1
Size
M2
20C-SH
20C-UAS
20C-UAU
3A-UA
PD300-UAS
L30C-SH
L30C-LP1-26-SH
L30C-UA
L30C-UAU
100C-SH
100C-UA
100C-UAU
Spectral Range Power Range (a)
Beamprofilers
Standard OEM Thermal Sensors - 100pW - 300W
EA-1 Ethernet Adapter for Customized Solutions (OEM) smart sensors
DB15 connection for smart
sensor
Accesspru
EA-1 Ethernet Adapter
Mini-USB connector for device configuration;
Ethernet RJ45 connector; optional 12V power
connector, required if "Power over Ethernet"
(PoE) is not available from network
Description
Compact ethernet PC adapter for smart sensor
Part Number
7Z08296
http://www.unice-eo.com Email : [email protected]
440
Power Meter Selection Guide
Beamprofilers
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
The table below lists the specs and features of Ophir Power Meters and PC Interfaces
Meters
Vega
Nova II
StarBright
StarLite
LaserStar Single
Channel
Nova
Digital Display
Yes
Yes
Yes
Yes
Yes
Yes
Display Color
Color
Monochrome
Color
Monochrome
Monochrome
Monochrome
Analog Display
Yes
Yes
Yes
Yes
No
No
Rechargeable Battery
Yes
Yes
Yes
Yes
Yes
Yes
Detector Support (see compatibility table below)
Thermal Sensors
Yes
Yes
Yes
Yes
Yes
Yes
Photodiode Sensors
Yes
Yes
Yes
Yes
Yes
Yes
Pyroelectric Sensors
Yes
Yes
Yes
Yes
Yes
Yes
BeamTrack Sensors
Yes
Yes
Yes
Yes
No
No
M2
Measurement Options
Average Power
Yes
Yes
Yes
Yes
Yes
Yes
Energy per Pulse (Pyro. Sensors)
Yes
Yes
Yes
Yes
Yes
Yes
Single Shot Energy (Thermal
Sensors)
Yes
Yes
Yes
Yes
Yes
Yes
Statistics
Yes
Yes
Yes
No
Yes
Yes
1V,2V,5V,10V
1V,2V,5V,10V
1V
1V
1V
No
No
No
No
No
No
Analog Out
Trigger input & output
1V,2V,5V,10V
Real-Time Logging
30Hz
30Hz
30Hz
N/A
30Hz
10Hz
GPIB
N/A
N/A
N/A
N/A
1500Hz
N/A
USB
2000Hz
2000Hz
5000Hz
20Hz*
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
250K
50K
>10M**
No
50K
1K
Yes for USB
Yes for USB
Yes for USB
YES*
No
No
Labview VI's
Yes
Yes
Yes
YES*
Yes
Yes
Part number
7Z01560
7Z01550
7Z01580
7Z01565
7Z01600/7Z01601
7Z01500
USBI
Pulsar-4
Pulsar-2
Pulsar-1
Light Meters
Spectrometers
RS232
Bluetooth
On-Board Data Storage
Automation Interface
Meters
Wireless Interface PC Interfaces
Quasar
Juno
Digital Display
N/A
N/A
N/A
N/A
N/A
N/A
Display Color
N/A
N/A
N/A
N/A
N/A
N/A
Analog Display
N/A
N/A
N/A
N/A
N/A
N/A
Rechargeable Battery
Yes
Powered from USB
Powered from USB
No
No
No
Yes
Accessories
Detector Support (see compatibility table below)
Thermal Sensors
Yes
Yes
Yes
Yes
Yes
Photodiode Sensors
Yes
Yes
Yes
Yes
Yes
Yes
Pyroelectric Sensors
Yes
Yes
Yes
Yes
Yes
Yes
BeamTrack Sensors
No
Yes
No
No
No
No
Measurement Options
Average Power
Yes
Yes
Yes
Yes
Yes
Yes
Energy per Pulse (Pyro. Sensors)
Yes
Yes
Yes
Yes
Yes
Yes
Single Shot Energy (Thermal
Sensors)
Yes
Yes
Yes
Yes
Yes
Yes
Statistics
Yes
Yes
Yes
Yes
Yes
Yes
Analog Out
No
No
1V
No
No
No
Trigger input & output
No
No
No
Yes
Yes
Yes
N/A
Real-Time Logging
RS232
N/A
N/A
N/A
N/A
N/A
GPIB
N/A
N/A
N/A
N/A
N/A
N/A
USB
N/A
10,000Hz
2000Hz
25,000Hz
25,000Hz
25,000Hz
N/A
Bluetooth
500Hz
N/A
N/A
N/A
N/A
On-Board Data Storage
No
No
No
No
No
No
Automation Interface
No
Yes
Yes
Yes
Yes
Yes
Labview VI's
No
Yes
Yes
Yes
Yes
Yes
Part number
7Z01300
7Z01250
7Z01200
7Z01201
7Z01202
7Z01203
* With USB activation code
441
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
Compatibility Table
Yes
PF-DIF type Thermal sensors
Yes
Standard Photodiode sensors**
Yes
BC20 sensor
Yes
PD300-CIE sensor
Yes
BeamTrack Sensors
Yes
Previous generation
Pyroelectric Sensors
(non PE-C)
RP sensors
Yes
Yes
Has discrete
wavelengths
only
Has discrete
wavelengths
only
Yes
Nova/
Orion
Yes
Has discrete
wavelengths
only
Has discrete
wavelengths
only
Yes
StarLite
Quasar
Juno
USBI
Pulsar
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Measures static Measures static Measures static
Yes
Yes
beams only
beams only
beams only
Yes
Yes
No
No
No
Power/energy Power/energy
Power/energy
Yes
Yes
only
only
only
Needs an
adaptor (P/N
Somewhat
Somewhat
7Z08272)
limited
limited
Somewhat
Yes
Yes
functions. See
functions. See
limited
catalog notes
catalog notes
functions. See
catalog notes
Yes
Yes
Measures static Measures static
beams only
beams only
No
No
Power/energy Power/energy
only
only
Somewhat
Somewhat
limited
limited
functions. See functions. See
catalog notes catalog notes
Yes
Yes
No
Yes
Yes
Yes
Yes
No
Yes
No
No
No
No
Yes (with RPUSB s/w)
No
* Meaning all thermal sensors not listed as exceptions in above table.
** Meaning all photodiode sensors not listed as exceptions in above table.
Spectrometers
Yes
M2
PE-C Pyroelectric sensors
LaserStar
Beamprofilers
LP1 type Thermal sensors
Meter / Interface
Power /
Energy Meters
Standard Thermal sensors*
Vega/
Nova II
Yes
Sensor
G
Light Meters
Accessories
http://www.unice-eo.com Email : [email protected]
442
Beamprofilers
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
Power Meters ‧ Vega - Color Screen Laser Power/Energy Meter
* Compatible with all standard Ophir thermal, BeamTrack,
pyroelectric and photodiode sensors
* Brilliant color large size TFT 320x240 display
* Compact handheld design with rubberized bumpers and
optimized 2 position kickstand
* Choice of digital or analog needle display
* Illuminated keys for working in the dark
* Analog output
* Log every point at up to 4000Hz with pyro sensors
* Non volatile data storage up to 250,000 points
* Laser tuning screen and power and energy log
* USB and RS232 interfaces with StarLab and StarCom PC
applications, LabVIEW driver, COM Object Interface and
ActiveX control
* Soft keys and menu driven functions with on line help
* Many software features such as density, min/max, scaling etc.
M2
Selected Screens
Digital Power Screen and Color Functions
* Choice of bright on dark or dark on bright characters
* Optimize colors for use with laser eye protection glasses
* Can average over selected period. Useful for unstable lasers
* Bar graph can show max / min / average in different colors
Light Meters
Spectrometers
BeamTrack Power/Position/Size Screen
* Monitoring of laser beam size
* Accurate tracking of beam position to fractions of a mm
* Beam position and wander
* All the other features of standard power/energy meters
Analog Power Screen
* Perfect for adjusting and maximizing laser power
* Persistent graphical display allows tracking of minimum
maximum values measured
* Large analog needle with small digital display as well
Energy/Limits Screen
* Pulsed energy sensors (single or repetitive) and thermal
sensors (single shot only).
* Frequency measurement with pulsed energy sensors.
* Limits screen with bright colored warning
Accessories
Energy Logging Screen
* Pyroelectric and thermal sensors
* Continuous scroll with up to 100 points on screen
* Full statistics
* Store data onboard and recall
Additional Functions
* Press the menu choice on the main
screen and many more options pop
up as shown
Ordering Information
Item
Vega
Carrying Case
USB Cable for Vega
RS232 Cable for Vega
Battery Pack for Vega
443
Description
Ophir P/N
Vega color universal power meter for standard thermal, BeamTrack, pyroelectric and photodiode sensors 7Z01560
Carrying case 38 x 30 x 11 cm. For power meter and up to 3 sensors
1J02079
USB to mini DIN cable (1 unit supplied with Vega)
7E01205
D9 to mini DIN cable (1 unit supplied with Vega)
7E01206
Replacement battery pack for the Vega
7E14007
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
Nova ll - Versatile Laser Power/Energy Meter
G
Power /
Energy Meters
Beamprofilers
* Compatible with all standard Ophir thermal, BeamTrack,
pyroelectric and photodiode sensors
* Large high definition LCD display
* Choice of digital or analog needle display
* 2 position kickstand
* Backlighting and rechargeable battery
* Analog output
* Log every point at up to 4000Hz with pyro sensors
* Non volatile data storage up to 59,400 points
* Laser tuning screen and power and energy log
* USB and RS232 interfaces with StarLab and StarCom PC
applications, LabVIEW driver, COM Object Interface and ActiveX
control Soft keys and menu driven functions with on-line help
* Many software features such and density, min/max, scaling etc.
Selected Screens
Digital Power Screen
M2
* CW industrial, medical and scientific lasers
* pW to Multi kW with appropriate sensors
* Can average over selected period. Useful for unstable lasers
* Fast response bar graph
BeamTrack Power/Position/Size Screen
Spectrometers
* Monitoring of laser beam size
* Accurate tracking of beam position to fractions of a mm
* Beam position and wander
* All the other features of standard power/energy meters
Analog Power Screen
* Perfect for adjusting and maximizing laser power
* Large analog needle with small digital display as well
Energy Screen
Light Meters
* Pulsed energy sensors (single or repetitive) and
thermal sensors (single shot only)
* Frequency measurement with pulsed energy sensors
Energy Logging Screen
* Pyroelectric and thermal sensors
* Continuous scroll with up to 100 points on screen
* Full statistics
* Store data onboard and recall
Accessories
Additional Functions
* Press the menu choice on the main screen and
many more options pop up as shown
Ordering Information
Item
Nova II
Carrying Case
Nova II USB Cable
Nova II RS232 Cable
Battery Pack
Description
Nova II universal power meter for standard thermal, BeamTrack, pyroelectric and photodiode sensors
Carrying case 38 x 30 x 11 cm. For power meter and up to three sensors
USB to mini DIN cable (1 unit supplied with Nova II)
D9 to mini DIN cable (1 unit supplied with Nova II)
Replacement battery pack for the Nova II
Ophir P/N
7Z01550
1J02079
7E01205
7E01206
7E14007
http://www.unice-eo.com Email : [email protected]
444
M2
Beamprofilers
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
Laserstar - Versatile Laser Power/Energy Meter
* Two models available: dual and single channel
* Single channel model can be upgraded to dual channel
* Compatible with all standard Ophir thermopile, pyroelectric,
photodiode and RP sensors
* Large LCD display
* Backlighting and rechargeable battery
* Screen graphics and statistics (std dev. min, max)
* Analog output
* Built-in RS232 interface
* Log every data point at >1500Hz with pyroelectric sensors
* Non-volatile data storage up to 59,400 points
* Laser tuning screen and power log
* Audio sound for laser tuning and low battery
* RS232 interface with StarCom PC application software nd LabVIEW driver
* GPIB option (IEEE488.1)
* NIST traceable
* CE marked
* Soft keys, menu-driven
IEEE 488 GPIB Cable for LaserStar
Selected Screens
Spectrometers
Digital Power Screen
* CW industrial, medical and scientific lasers
* pW to multi kW with appropriate sensors
* Can average over selected period. Useful for unstable lasers
* Fast response bar graph
Laser Tuning Screen or Power Log Screen (not shown)
* Maximizing laser power
* User selected time period and zoom
* Option of audio tune tone for maximizing laser power
Energy Measurement Screen
Light Meters
* Pyroelectric and thermal sensors - single pulse
* Pyroelectric frequency measurement
Energy Log Screen
* Pulsed energy sensors
* Thermal sensors - successive single pulses
* Continuous scroll
* Energy statistics
Accessories
Ratio Screen
* Two independent sensors
* Measure ratio, sum, difference
* Normalize one sensor to the other
Data Storage and Transmission
* Non-volatile storage of power and energy logging data
* Store in up to 10 files and transmit to PC
* PC using StarCom Windows program provided
Ordering Information
Item
Description
Laserstar
Laserstar single channel universal power meter for thermal, pyroelectric, photodiode and RP sensors
Laserstar 2 Channel
Laserstar with dual channel capability including ratio and difference measurement
RS232 Cable for Laserstar Cable RS232 D9 - D25 (1 unit supplied with Laserstar)
Laserstar Battery Pack
Laserstar NiMH Battery update Kit
Laserstar IEEE Option
IEEE GPIB adapter for Laserstar
Laserstar AN Adapter
Laserstar analog output adapter (1unit supplied with Laserstar)
Note: (a) P/N 7Y78300 replaces P/N 78300
445
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Ophir P/N
7Z01600
7Z01601
7E01121
7Z14006A
7Y78300 (a)
7Z11004
Light Analysis : Energy & Spectrum
StarBright - Feature Rich Laser Power / Energy Meter
G
Power /
Energy Meters
Beamprofilers
* Compatible with all standard Ophir thermal, BeamTrack,
pyroelectric (PE-C series) and photodiode sensors
* Brilliant color large size TFT 320x240 display
* Compact handheld design with rubberized bumpers and
optimized kickstand
* Choose between Digital with Bargraph, Analog Needle, Line
Plot, Position, Stability and Real Time Statistics displays
* Scalable Analog Output
* Log every point at up to 5000Hz with Pyro sensors
* USB Flash Drive for nearly unlimited data storage
* Laser tuning screen as well as sophisticated power and
energy logging
* USB and RS232 interfaces with StarLab and StarCom PC
applications included
* LabVIEW driver and COM Object Interface (see page 129)
* Soft keys and menu driven functions with context sensitive help
* Math functions for advanced processing such as Density,
Scale Factor, Pass/Fail inspection, etc
* Backlighting and rechargeable battery
M2
Selected Screens
Spectrometers
* Power display in analog needle format.
* Persistence tracking of previous measurements including
min/max display.
* Alternate color scheme selected.
Math functions applied to measure power density after rescaling
the power measured by the sensor.
* Power measurement displayed as a line plot.
* Graph wraps back to start when end is reached.
* Min/Max displayed to help in tuning.
Light Meters
* Power, Position, and Size measured with a
BeamTrack sensor.
* Also measures beam wander.
StarBright Screen Layout
Accessories
StarBright screen ergonomics raise the user experience to new levels.
The display is carefully designed to provide easy reading of the laser
measurement, quick access to configuration parameters as well as the ability
to set up for more advanced work.
Ordering Information
Item
StarBright
Carrying Case
StarBright USB Cable
StarBright RS232 Cable
StarBright Battery Pack
Description
StarBright universal power meter for Thermal, BeamTrack, Pyroelectric and Photodiode sensors
Carrying case 38x30x11 cm. For power meter and up to 3 sensors
USB-A to MICRO-B cable for field upgrade support (1 unit supplied with StarLite)
D9 to 3.5mm plug cable (1 unit supplied with StarBright)
Replacement battery pack for the StarBright
Ophir P/N
7Z01580
1J02079
7E01279
7E01213
7E14008
http://www.unice-eo.com Email : [email protected]
446
M2
Beamprofilers
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
StarLite - Low Cost Power / Energy Meter
* Compatible with all standard Ophir Thermal, BeamTrack,
PE-C Pyroelectric and Photodiode sensors (not compatible
with non C pyroelectric sensors)
* Brilliant large size TFT 320x240 display
* Compact handheld design with rubberized bumpers and
optimized kickstand
* Choice of digital or analog needle display
* Analog output
* Easy to use soft keys
* Easy measurement configuration with context sensitive help
* Backlighting and rechargeable battery
* Single shot energy measurement with thermal sensors
* Power averaging
* Resizable Screen graphics
* EMI rejection
* Optional software package for USB communication with our
StarLab PC suite
Barchart Display of Power Measurement
Selected Screens
Light Meters
Spectrometers
Digital Power Screen
* CW industrial, medical and scientific lasers
* pW to Multi kW with appropriate sensors
* Can average over selected period. Useful for unstable lasers.
* Fast response bar chart
BeamTrack Power/Position/Size Screen
* Monitoring of laser beam size
* Accurate tracking of beam position to fractions of a mm
* Power measured at the same time
BeamTrack Position and Size Screen
Analog Needle Screen
* Perfect for adjusting and maximizing laser power or energy
* Persistent graphical display allows tracking of minimum
maximum values measured
* Large analog needle with small digital display as well
Large Analog Needle with Persistence
Accessories
Configuration Screen
* Easy adjustment of all measurement configuration
parameters
* Context sensitive help for selected parameter
* Sensor and meter information provided
Ordering Information
Item
StarLite
Carrying Case
StarLite USB Activation Code
USB Cable for StarLite
Battery Pack for StarLite
447
Configuration Screen
Description
StarLite universal power meter for Thermal, BeamTrack, Pyroelectric and Photodiode sensors
Carrying case 38 x 30 x 11 cm. For power meter and up to 3 sensors
Software Activation Code that enables the StarLite meter to communicate in USB with our StarLab software suite
USB-A to MICRO-B cable for field upgrade support (1 unit supplied with StarLite)
Replacement battery pack for the StarLite
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Ophir P/N
7Z01565
1J02079
7Z11049
7E01279
7E14008
Light Analysis : Energy & Spectrum
PC Interfaces
Power /
Energy Meters
PC Connectivity Options for Power/Energy Measurement
Beamprofilers
Ophir power meter capable of on
board storage of data of up to 250,000
points and data storage rate of up to
4000 points per second
Sample data with Ophir
power meter at up to 4000
points per second
G
Ophir sensor to USB
interfaces with up to 4
channel connectivity
M2
Ophir Pyroelectric, Thermal
and Photodiode sensors
measure at up to 25,000
points per second
Ophir Quasar interface
with wireless connectivity
Transmit stored data or real time
data to PC via USB or RS232
Transmit real time data to PC at 500
points per second via Bluetooth
StarCom software (data transmitted via RS232)
Light Meters
StarLab software (data transmitted via USB or Bluetooth )
Spectrometers
Transmit real time data to PC at
up to 25,000 points/s per channel
(sensor limited) via USB
Accessories
StarLab software
StarCom software
http://www.unice-eo.com Email : [email protected]
448
Beamprofilers
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
Compact Juno USB Interface
Convert your laptop or desktop PC into an Ophir sensor power/energy meter
* From sensor to interface to PC - no power source needed
* Plug and play with all standard Ophir smart sensors
* Position & size measurement with BeamTrack sensors
* Record every energy pulse at up to 10kHz
* Log power and energy, average, statistics, histograms and
more with included StarLab application
* LabVIEW VIs and COM Object interface
* Very compact - is just an extension of the smart plug
Smart Sensor to Juno to PC
Accessories
Light Meters
Spectrometers
M2
Ophir’s basic smart compact Juno module turns your PC or laptop into a full fledged Ophir laser power/energy meter.
Just install the software, plug the sensor into the Juno module and connect the Juno with a standard USB cable to the PC
USB port. Using the Juno, you can connect several sensors to the PC by using one Juno module for each sensor and, if
necessary, a USB hub.
LabVIEW
Juno with BeamTrack sensor and StarLab
showing beam power, position and size
Specifications
Power Measurement
Power log period
Energy Measurement
5s to 500hr.
Max real time data logging to PC
Trigger input and output
Timing
General
10,000Hz (a)
N.A.
Supports time stamp for each pulse - resolution 10μs
Number of sensors supported
One sensor per unit. Can combine several units with software for display of up to 8 sensors on one PC
Compatible sensors
Supports all standard Ophir pyroelectric, thermal, BeamTrack and photodiode sensors (b)
Power supply
Powered from USB
Dimensions
76 x 55 x 22mm
Notes:
(a) This is the data logging rate for every single point in turbo mode. Above that rate, the instrument will sample points but not log every single point
(b) Not including RP, PD300-CIE and BC20
Ordering Information
Item
Juno
Juno USB cable
449
Juno operating with StarLab software
Description
Ophir P/N
Compact module to operate one Ophir sensor from your PC USB port. Comes with software. Max repetition rate
7Z01250
for every pulse 10kHz. Powered from PC USB port
USB-A to MINI-B Cable (1 unit supplied with Juno)
7E01217
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
Pulsar Multichannel and Triggered USB Interfaces
Power /
Energy Meters
Convert your laptop or desktop PC into a multichannel power/energy meter
G
Smart Sensor to Pulsar to PC
Ophir’s 1-4 channel Pulsar interface turns your PC or laptop into
a full fledged Ophir multi-channel laser power/energy meter. Just install the software, plug the sensor into the Pulsar
and the USB cable from the Pulsar to the PC USB port. With the Pulsar series, you can connect up to 4 sensors to each
module, monitor each pulse at up to 25kHz and utilize external trigger.
Beamprofilers
* From sensor to interface to PC
* 1,2 and 4 channel models
* Plug and play with most Ophir sensors
* Record every energy pulse at up to 25kHz
* Measure missing pulses & trigger output with external trigger
* Log power and energy, average, statistics, histograms and more with
included StarLab application
* LabVIEW VIs, COM Object Interface and ActiveX software included
M2
Spectrometers
LabVIEW
Pulsar-4 operating with StarLab software
Specifications
Power Measurement
Power log period
Energy Measurement
5s to 500hr.
Number of sensors supported
Compatible sensors
Power supply
Dimensions
4 / 2 / 1 sensors per unit. Can combine several units with software for display of up to 8 sensors on one PC
Supports all standard Ophir pyroelectric, thermal and photodiode sensors (b)
12V wall cube power supply plugs into jack on rear. The power supply can be ordered from your local distributor.
189 x 103 x 33mm
Accessories
Notes :
(a) Limited by the maximum repetition rate of the sensor. At present only the PE9-F can operate up to 25000Hz
(b) Not including RP, PD300-CIE and BC20 sensors
Ordering Information
Item
Description
Ophir P/N
Pulsar-2
Module to operate up to 4 Ophir sensors from your PC USB port. Comes with software. Max repetition rate for
every pulse 25kHz. Has external trigger capability. Powered from wall cube power supply (can be ordered from 7Z01201
your local distributor).
Same as above but for 2 channels only
7Z01202
Pulsar-1
Same as above but for 1 channel only
Pulsar-4
Light Meters
Max real time data logging to PC 25,000Hz (a)
Trigger input and output
BNC trigger input to enable measurement of missing pulses or to select specific pulses. Can also be configured to give trigger output
Timing
Supports time stamp for each pulse - resolution 1μs
General
7Z01203
Pulsar USB
Cable USB-A to B cable (1 unit supplied with Pulsar)
7E01202
Legacy smart sensor to USB interface with similar performance to Juno but larger size. Has analog output. See
USB Interface (USBI) legacy
7Z01200
summary page 102 for specifications
http://www.unice-eo.com Email : [email protected]
450
Quasar Wireless Bluetooth Interface
Straight from your measuring sensor to your laptop or PC with no cables
* Quasar wireless interface connects to any Ophir sensor and
broadcasts to your PC
* Wireless range of 10-30 meters depending on surroundings
* Operates from rechargeable battery with typically >40 hours lifetime
* Powerful USB interface with StarLab PC application software included
* Converts your PC into a complete laser power/energy meter
* Log power and energy, average, statistics, histograms and more
* Monitor up to 7 Quasars simultaneously on one PC
Quasar Bluetooth Wireless Sensor to PC Interface
Spectrometers
M2
Beamprofilers
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
Quasar module connects to any Ophir sensor,
thermal, pyroelectric or photodiode
Any PC or laptop connects to Quasar module via
Bluetooth adapter and operates as a power/energy
meter/data logger
Accessories
Light Meters
Specification
Sensor Compatibility
Number of Sensors on One PC
Operating Range
All Ophir standard sensors, thermal, photodiode and pyroelectric (a)
Up to 7 Quasars can operate simultaneously and be displayed at the same time on one PC
10-30 meters depending on surroundings when used with built in laptop Bluetooth or Ophir recommended adapter
Powered by rechargeable NiMH battery. Battery life typical 40 hours, 20 hours for pyro sensors. Automatically goes
Power
into sleep mode when not connected to PC. Low batt indication. Charges from 12VDC either polarity. The charger can
be ordered from your local distributor.
LED Indicator
LED indicator indicates whether connected, in standby or off
Bluetooth class 1. Connection to PC is transparent to user. Will work with built in laptop Bluetooth and most add on
Bluetooth Standard
USB to Bluetooth adapters. Ophir recommended USB to Bluetooth adapter Ophir P/N 7E10039 (see table below)
Data Transfer Rate for Pyro Sensors 500Hz
Dimensions
96mm (W) x 95mm (D) x 36mm (H) not including antenna
Connections
15 pin D type sensor connector standard Ophir 12V charger input
Notes : (a) Not including RP, PD300-CIE and BC20 sensors
Ordering Information
Item
Description
Ophir P/N
Module to operate one Ophir sensor from your PC via Bluetooth wireless interface. Comes with software. Max
Quasar Bluetooth Interface repetition rate for every pulse 500Hz. Powered from built in rechargeable battery. Comes with power supply. Bluetooth 7Z01300
adapter required when not available on PC. See next line
Adapter for PC or Laptop not equipped with built in Bluetooth. This adapter is tested and recommended by Ophir.
USB to Bluetooth adapter
7E10039
Quasar is not guaranteed to work with all other adapters on the market
Battery Pack for Quasar Replacement battery pack for Quasar
7E14007
451
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
Summary of Computer Options for Ophir Meters and Interfaces
With Ophir RS232, USB, Bluetooth and GPIB communication options you can transfer data from the sensor to the PC in
real time or offline. You can also control your Ophir power meter from the PC.
Ophir Power Meter and Interface Specifications
Model
Nova
Laserstar
Nova II / Vega StarBright
StarLite
(c)
Pulsar1, 2 or 4
USB
USB
USB
interface
USB
Quasar
Bluetooth
Bluetooth
Juno
RS232
RS232 / GPIB USB / RS232 USB / RS232
USB
5s to 24hr.
N.A
5s to 500hr.
5s to 500hr.
5s to 500hr.
5s to 500hr.
Max points stored onboard
300
N.A
N.A
N.A
N.A
N.A
Max points direct on PC
unlimited
N.A
unlimited
unlimited
unlimited
unlimited
Analog output
1V F.S.
12s to 600hr. 12s to 600hr. 1s to 1000hr.
Nova II 5400
5400
unlimited
Vega 27000
unlimited
unlimited
unlimited
1V, 2V. 5V,
1V, 2V. 5V,
1V F.S.
10V F.S.
10V F.S.
1V F.S.
N.A
N.A
1V F.S.
N.A
>30Hz RS232 >2000Hz USB (a) >5000Hz USB
(a)
>1500Hz GPIB >30Hz RS232 >30Hz RS232
20Hz (c)
25,000Hz (a)
10,000Hz (a)
2000Hz (a)
500Hz
>10Hz
>1500Hz (a)
N.A
N.A
N.A
N.A
N.A
~50 points/s
~500 points/s ~500 points/s ~500 points/s N.A
N.A
N.A
N.A
N.A
1000
59,400
N.A
N.A
N.A
N.A
M2
Communication Method
Power Measurement
Power log period
Beamprofilers
* USB standard on Nova II, Vega power meters and Juno, Pulsar and USBI PC interfaces
* Bluetooth wireless on the Quasar interface
* RS232 standard with the Laserstar, Nova II and Vega, optional on the Nova
* GPIB optional with the Laserstar
Power /
Energy Meters
Communications
G
Energy Measurement
Max real time data logging to PC >10Hz
Max points stored onboard
Trigger input and output
N.A
N.A
4000Hz (a)
5000Hz
Nova II 59,400
unlimited
Vega 250,000
N.A
N.A
N.A
N.A
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Accessories
Timing - time stamp for each pulse N.A
N.A
N.A
resolution 1µs N.A
General
yes
Automation Interface
no
no
yes
yes
yes
yes
no
yes (c)
(c)
LabVIEW VIs
yes
yes
yes
yes
yes
yes
no
yes
yes
(b)
Maximum baud rate
38400
38400
N.A
N.A.
N.A.
N.A.
N.A.
115200
19200
PC file format
Text files, spreadsheet compatible ASCII
One sensor
One sensor per One sensor per One sensor per One sensor
4 / 2 / 1 sensors One sensor per One sensor per One sensor per
unit for single unit. Can
per unit. Can
unit. Can
unit. Can
unit. Can
unit. Can
per unit.
per unit
channel mode. combine several combine several
combine several combine several combine several combine several
Number of sensors
Two sensors
units with
units with
units with
units with
units with
units with
supported
per unit for dual software for
software for
software for
software for
software for
software for
channel mode. display of up to display of up to
display of up to display of up to display of up to display of up to
8 sensors on
8 sensors on
8 sensors on
7 Quasars on
8 sensors on
8 sensors on
one PC
one PC
one PC
one PC
one PC
one PC
Compatible sensors
Supports most Ophir pyroelectric, thermal and photodiode sensors
Powered from Powered from Powered from Powered from Powered from 12V wall cube Powered from Powered from Powered from
internal
internal
internal
internal
internal
plugs into jack USB
USB
internal
Power supply
rechargeable rechargeable rechargeable rechargeable rechargeable on rear
rechargeable
battery power battery power battery power battery power battery power
battery power
supply
supply
supply
supply
supply
supply
205 x 95 x
228 x 195 x 208 x 117 x
155 x 90 x
96 x 95 x
208 x 117 x 213 x 113 x 189 x 103 x 76 x 55 x
Dimensions
39mm
54mm
40mm
40mm
33mm
22mm
34mm
36mm
40mm
Notes :
(a) The above refers to the rate for logging every single point in turbo mode. Above that rate, the instrument will sample points but not log every single point.
(b) For pyroelectric sensors, maximum guaranteed baud rate is 9600.
(c) StarLite must be USB enabled in order to work with StarLab. If your StarLite has not been USB enabled, please contact your Ophir distributor in order to obtain a USB Activation Code.
Light Meters
BNC trigger
input to enable
measurement of
missing pulses. N.A
N.A
N.A
Can also be
configured to
give trigger
output.
resolution 1μs resolution 10μs resolution 50ms resolution 10ms
Spectrometers
Max onboard data logging
rate
Data transfer rate of a data
file from instrument to PC
452
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
Beam Profiling System
Power
UV-Vis
Beamprofilers
Minimum Beam Size
Laser Wavelength
NIR 1000-1100n
<100mW
100mW-100W
>100W
<20μm
NS-Si
SP928
LT665
NS-Pyro
SP928
LT665
HP-NS
NS-Pyro
SP928
LT665
NS-Si/3.5/1.8
NS-Ge
SP928
LT665
NS-Ge
NS-Pyro
SP928
LT665
NS-Pyro
Pyrocam
NS-Ge
SP620-1550
LT665-1550
Pyrocam
NS-Ge
SP928-1550
LT665-1550
Pyrocam
NS-Ge
SP928-1550
LT665-1550
Pyrocam
NS-Pyro
HP-NS
Pyrocam
NS-Pyro
Pyrocam
ModeCheck
NS-Pyro
SP928
HP-NS
NS-Pyro
Telecom and Eye-Safe
1100-1800nm
M2
1500-1600nm
MIR&FIR
Spectrometers
Abbreviations:
Light Meters
Accessories
>5mm
>10mm
CW
Pyrocam
NS-Pyro
HP-NS
Pyrocam
NS-Pyro
Pyrocam
ModeCheck
NS
SP928
LT665
UV-Vis
NS-Ge/12/25
NS-Pyro/20/25 NS-Pyro/20/25
NIR 1000-1100nm
LT665
L11059
LT665
NS-Ge/12/25
Telecom and EyeNS-Pyro/20/25 NS-Pyro/20/25
Safe 1100-1800nm
Pyrocam
NS-G/12/25 NS-Pyro/20/25
1500-1600nm
SP928-1550 LT665-1550
LT665-1550
NS-Pyro/20/25 NS-Pyro/20/25
MIR & FIR
Pyrocam
Abbreviations:
453
>500μm
<1mm
NS-Si/9/5
NS-Pyro/9/5
SP928
LT665
NS-Ge/9/5
NS-Pyro/9/5
SP928
NS-Ge/9/9
NS-Pyro/9/5
XEVA
NS-Si/9/5
NS-Pyro/9/5
SP928
LT665
NS-Ge/9/5
NS-Pyro/9/5
SP928/SP907
NS-Ge/9/9
NS-Pyro/9/5
XEVA
Pyrocam
Pyrocam
XEVA
SP928-1550
LT665-1550
NS-Si/9/5
NS-Pyro/9/5
SP928
LT665
NS-Ge/9/5
NS-Pyro/9/5
NS-Ge/9/9
NS-Pyro/9/5
XEVA
Pyrocam
NS-Ge/9/5
SP928-1550
XEVA
LT665-1550
NS-Pyro/9/5
NS-Pyro/9/5
Pyrocam
Pyrocam
NS-Ge/9/5
NS-Pyro/9/5
NS-Ge/3.5/1.8
NS-Ge/9/9
NS-Pyro/9/5
NS-Ge/3.5/1.8
NS-Ge/9/5
NS-Ge/9/5
SP928-1550
LT665-1550
Pyrocam
w/ Beam
Expansion
NS-Pyro/9/5
NS-Pyro/9/5
NIR
Near Infrared
SiSilicon
SP
Indicates camera profiler
NSNanoScan
CW or Pulsed
Laser Wavelength
>50μm
NS-Ge/3.5/1.8
FIR
Far Infrared
GeGermanium
HP
High Power
MIRMid-Infrared
UV-Vis Ultraviolet - Visible
Minimum Beam Size
>20
<50μm
NS-Si/9/5
NS-Pyro/9/5
Pulsed
<1kHz
Pyrocam
w/ Beam
Expansion
Customer Priority
Pulsed
>1kHz
Price
2D/3D
NS-Pyro/9/5 NS-Pyro/9/5 NS-Pyro/9/5
No optics
Speed
Ease of use
NS-Pyro/9/5
NS
NS
Pyrocam
Pyrocam
SP928
LT665
SP928
NS
LT665
SP928
SP928
LT665
NS
NS
NS
NS
XEVA
XEVA
NS
NS
XEVA
Pyrocam
NS
NS
NS
XEVA
XEVA
LT665-1550
Pyrocam
NS
NS
NS
NS
NS
NS
NS
Pyrocam
FIR
Far Infrared
GeGermanium
HP
High Power
MIRMid-Infrared
UV-Vis Ultraviolet - Visible
NS
XEVA
SP928-1550 SP928-15550
LT665-1550
LT665-1150
NS
NS
Pyrocam
Pyrocam
NIR
Near Infrared
SiSilicon
SP
Indicates camera profiler
NSNanoScan
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
Benefits of Beam Profiling
Power /
Energy Meters
You can get more out of your laser
1
2
3
4
5
6
7
8
9
10
Laser cavities become misaligned
Beamprofilers
Figure 1 shows an industrial Nd: YAG laser, near Gaussian beam, with 100
Watts output power and 1.5kW/cm2 power density. Figure 2 is the same Nd:
YAG beam at greater power, 170 Watts, but it split into 2 peaks producing
only 1.3kW/cm2 power density. The power density of the beam decreased 13%
instead of increasing by the 70% expected.
Without measuring the beam profile and beam width, you would not know what
happened to your power density, and why the performance did not improve.
G
Figures 3 & 4 are beam profiles of CO2 lasers used for ceramic wafer scribing
in the same shop. The second laser with the highly structured beam produced
mostly scrap parts, until the laser cavity was aligned.
M2
Off axis delivery optics
Figures 5 & 6 show an industrial Nd:YAG laser with misaligned turning mirror,
before and after adjustment.
Figures 7 & 8 show beam profiles during alignment of a collimating lens to
a laser diode. The first profile shows poor alignment of the lens to the diode,
which can easily be improved when seeing the profile in real time.
Figures 9 & 10 show a Cr: LiSAF femtosecond laser oscillator beam with a
near Gaussian output, and what happens to the oscillator beam with poor input
alignment.
Accessories
All these examples illustrate the need for beam monitoring
Light Meters
Laser amplifier tuning
Spectrometers
Alignment of devices to lenses
* Measurement of the beam profile is needed to know if problems exist, and the
profile must be seen to make corrections
* Most laser processes can be improved
* Scientific experiments can be more accurate
* Commercial instruments can be better aligned
* Military devices can have greater effectiveness
* Industrial processing produces less scrap
* Medical applications are more precise
Just knowing the beam profile can make the difference between success and failure
of a process.
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454
Introduction to Camera-Based Profilers
Beam Attenuating Accessories
A camera-based beam profiler system consists of a camera, profiler software and a beam attenuation accessory. Spiricon
offers the broadest range of cameras in the market to cope with wavelengths from 13nm, extreme UV, to 3000 μm, in the
long infrared. Both USB and FireWire interfaces are available for most wavelength ranges providing flexibility for either
laptop or desktop computers.
Accessories
Light Meters
Spectrometers
M2
Beamprofilers
Power /
Energy Meters
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Light Analysis : Energy & Spectrum
BeamGage®, the profiling software, comes in two versions: Standard and Professional. Each builds off of the next adding
additional capability and flexibility needed for adapting to almost any configuration requirement.
Spiricon also has the most extensive array of accessories for beam profiling. There are components for attenuating, filtering,
beamsplitting,magnifying, reducing and wavelength conversion. There are components for wavelengths from the deep UV to
CO2 wavelengths. Most of the components are modular so they can be mixed and matched with each other to solve almost
any beam profiling requirement needed.
Acquisition and Analysis Software
The BeamGage software is written specifically for Microsoft Windows operating systems and takes full advantage of
the ribbon-base, multi-window environment. The software performs rigorous data analyses on the same parameters, in
accordance with the ISO standards, providing quantitative measurement of numerous beam spatial characteristics. Pass/Fail
limit analysis for each of these parameters can bealso applied.
* ISO Standard Beam Parameters
* Dslit, Denergy, D4σ
* Centroid and Peak location
* Major and Minor axes
* Ellipticity, Eccentricity
* Beam Rotation
* Gaussian Fit
* Flat-top analysis/Uniformity
* Divergence
* Pointing stability
For data display and visualization, the user can arrange and size multiple windows as required. These may contain, for
example, live video, 2D Topographic and 3D views, calculated beam parameters and summary statistics in tabular form with
Pass/Fail limit analysis, and graphical strip chart time displays with summary statistics and overlays. Custom configured
instrument screens with multiple views can be saved as configuration files for repeated use. Data can be exported to
spreadsheets, math, process/ instrumentation and statistical analysis programs, and control programs by logging to files or
COM ports, or by sharing using LabView or ActiveX Automation.
* Video Dual Aperture Profiles
* Bam Statistics
* 3D Profile View
* 2D Topographic View
* Time Statistics Charts
* Pointing / Targeting
* Hide measurements and features not in use for user simplicity
* Notes
455
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Light Analysis : Energy & Spectrum
BeamGage®-Standard Version
M2
BeamGage includes all of the accuracy and ISO approved quantitative results that made our LBA software so successful. BeamGage
also brings the ease-of-use that has made our BeamStar software so popular. Our patented UltraCal algorithm, guarantees the data
baseline or “zero-reference point” is accurate to 1/10 of a digital count on a pixel-by-pixel basis. ISO 11146 requires that a baseline
correction algorithm be used to improve the accuracy of beam width measurements. UltraCal has been enhanced in BeamGage to
assure that accurate spatial measurements are now more quickly available.
Beamprofilers
The performance of today’s laser systems can strongly affect the success of
demanding, modern laser applications.
The beam's size, shape, uniformity or approximation to the expected power distribution, as well as its divergence and mode content
can make or break an application. Accurate knowledge of these parameters is essential to the success of any laser-based endeavor. As
laser applications push the boundaries of laser performance it is becoming more critical to understand the operating criteria.
For over thirty years Ophir-Spiricon has developed instruments to accurately measure critical laser parameters. Our LBA and BeamStar
software have led the way. Now with the introduction of BeamGage, Ophir-Spiricon offers the first “new from the ground up” beam
profile analysis instrument the industry has experienced in over 10 years.
Power /
Energy Meters
* Extensive set of ISO quantitative measurements
* Patented Ultracal™ algorithm for highest accuracy measurements in the industry
* Customizable user interface for ‘ease of use’
* Auto-setup and Auto-exposure capabilities for fast set-up and optimized accuracy
* Statistical analysis on all calculated results displayed in real time
* New BeamMaker® beam simulator for algorithm self-validation
G
See Your Beam As Never Before:
Light Meters
Dual or single monitor setup with beam displays on one
and results on the other.(Note that results can be magnified
large enough to see across the room).
Spectrometers
The Graphical User Interface (GUI) of BeamGage is new. Dockable and floatable windows plus concealable ribbon tool bars
empowers the BeamGage user to make the most of a small laptop display or a large, multi-monitor desktop PC.
Beam only (Note results overlaid on beam profile).
Accessories
Beam plus results
Multiple beam and results windows.
(Note quantified profile results on 3D display & quantified
2D slices).
*3D displays Rotate & Tilt. All displays Pan, Zoom, Translate & Z axis Zoom.
http://www.unice-eo.com Email : [email protected]
456
Measure Your Beam As Never Before:
Ultracal: Essential, or no big deal?
If you want accurate beam measurements, you want Ultracal.
What is Ultracal?
Our patented, baseline correction algorithm helped establish the ISO 11146-3 standard for beam measurement accuracy.
The problems with cameras used in beam profile measurements are: a) baseline, or zero, of the cameras drift with time
temperature, and b) include random noise. Ultracal is the only beam profiler algorithm that sets the baseline to “zero”, and,
in the center of the noise. (Competitive products use other less sophisticated algorithms that perform a baseline subtraction,
but truncate the noise below the “zero” of the baseline. This leaves only a “positive” component, which adds a net value to
all beam measurements).
Try the following on any other beam profiler product to see the inherent error if you don’t use Ultracal.
1.
2.
3.
4.
Measure a beam with full intensity on the profiler camera.
Insert a ND2 filter (100X attenuation) into the beam and measure it again.
Compare the results.
The Standard Deviation below is about 3%, which is phenomenal compared to the 100% or more of any beam profiler without Ultracal.
Beam at full intensity Width 225μm Std Dev
0.06μm
Beam attenuated 100X (displayed here
in 2D at 16X magnitude zoom), Width
231μm, Std Dev 7μm
Adding the use of Automatic Aperture improves the accuracy to 1%. (The conditions of this measurement is a camera with a 50dB SNR).
5. You normally don’t make measurements at such a low intensity. But occasionally you may have a drop in intensity of your beam and don’t
want to have to adjust the attenuation. Or, you may occasionally have a very small beam of only a few tens of pixels. In both of these cases,
Ultracal becomes essential in obtaining accurate measurements.
Beam Measurements and Statistics
BeamGage allows you to configure as many measurements as needed to support your work, and comes standard with over 55
separate measurement choices. To distinguish between calculations that are based on ISO standards and those that are not, a
graphical ISO logo isb displayed next to appropriate measurements. You can also choose to perform statistical calculations on any
parameter in the list.
Accessories
Light Meters
Spectrometers
M2
Beamprofilers
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
Sample of calculation results with statistics applied
Small sample of possible
measurements out of a list of 55
457
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
Multiple Charting Options
Beamprofilers
Strip chart of beam D4sigma width. Note how changing conditions affects the width repeatability.
Beam intensity changed over 10db, making noise a significant factor in measurement stability.
Power /
Energy Meters
You can create strip charts for stability observations on practically any of the calculations options available. Charts enable
tracking of short or long term stability of your laser.
G
Beam Pointing Stability
M2
Open the Pointing Stability Window to collect centroid and peak data from the core system and display it graphically.View a
chart recorder and statistical functions in one interface:
Spectrometers
Light Meters
Easy to Use and Powerful
BeamGage is the only beam profiler on the market using modern Windows 7 navigation tools. The menu system of
BeamGage is easy tolearn and easy to use with most controls only one mouse click away. Some ribbon toolbar examples:
Accessories
Some of the Beam Display options (Display access options under the Tools tab on the left).
Some of the Beam Capture options.
http://www.unice-eo.com Email : [email protected]
458
BeamGage Main Display Screen
Spectrometers
M2
Beamprofilers
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
BeamGage allows the user to configure the displayed calculations; set-up the screen layout and password protect the
configuration from any changes. This permits secure product testing as well as data collection for Statistical Process Control
(SPC), all while assuring the validity of the data.
Accessories
Light Meters
Pass / Fail with Password Protection for Production Testing
Failures (or successes) can be the impetus for additional actions including a TTL output signal or PC beep and
the termination of further data acquisition.
459
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
Unique Features of BeamGage - Standard
G
Power /
Energy Meters
Power/Energy Calibration
Beamprofilers
Using the USB output from select Ophir power/energy meters,
the BeamGage application will display measured power/energy
values from the full range of Ophir thermopile, photodiode
and pyroelectric sensors. Pulsed lasers can be synced up to
100Hz, or the frame rate of the triggered camera, whichever is
less. This is the first time in the industry a laser power meter
has been married to a laser beam profile system.
BeamGage is the only product to integrate
profiling and power meter measurements
BeamMaker®; Numerical Beam Profile Generator
M2
Spectrometers
BeamGage contains a utility, BeamMaker, that can synthetically generate beam profile data by modeling either Laguerre,
Hermite or donut laser beams in various modal configurations. BeamMaker permits the user to model a beam profile by
specifying the mode, size,width, height, intensity, angle, and noise content.Once generated the user can then compare
the theoretically derived measurements to measurements including experimental inaccuracies produced by the various
measurement instruments and environmental test conditions. Users can now analyze expected results and confirm if
measurement algorithms will accurately measure the beam even before the experiment is constructed. BeamMaker can help
laser engineers, technicians and researchers understand a beam’s modal content by calculating results on modeled beams
for a better understanding of real laser beam profiles. BeamMaker is to laser beam analysis as a function generator is to an
oscilloscope.
Light Meters
Accessories
BeamMaker producing a synthetically generated Hermite TEM22 beam and displayed in both 2D and 3D
Integrated automatic Help linked into the Users Guide
Touch sensitive Tool tips are available on most all controls, and "What’s This" help can provide additional details. Confused
about what something is or forgot how it works, just go to the top right corner and touch the "What’s This" help icon, then
click on the control or menu item that you want more info about and you are taken to the explanation within the BeamGage
Users Guide.
Multilingual
BeamGage comes with both Japanese and Chinese user interface. Country specific manuals can be downloaded from the
ophiropt.com/photonics web site.
http://www.unice-eo.com Email : [email protected]
460
BeamGage®-Professional Version
Professional is an upgrade version of BeamGage-Standard that has all of the BeamGage-Standard features plus additional functionality.
Image Partitioning
Partitioning allows the user to subdivide the camera image into separate regions, called partitions, and compute separate beam
results within each partition. When using partitioning special results items can be displayed that relate to delta values between the
computed centroids or peaks of each partition. Partitioning is useful to enable separate analysis of individual beams when multiple
beams impinge on the camera simultaneously. This feature is particularly useful when analyzing multiple fibers in a single bundle.
Light Meters
Spectrometers
M2
Beamprofilers
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
Shown is an example of the results for partition P2 and its related display frame.
Observe that the selected partition is highlighted in RED. The crosshair in each
partition is user controlled. The crosshair can be moved to a new position with the
mouse or can be numerically positioned using the expanded controls that appear
when a partition is created.
Automation Interface
BeamGage Professional provides an automation interface via .NET components to allow customers the ability to build
custom applications’ that incorporate the laser beam analysis and processing power of BeamGage. The BeamGage
automation interface allows developers to control BeamGage programmatically via a set of “puppet strings” known as the
automation interface. The automation interface was developed to provide the ability to base control decisions for a second
application on results and behaviors recognized by BeamGage. With this ability users can quickly and efficiently meet their
manufacturing/analysis goals with minimum human interaction.
The automation interface was designed to achieve two main goals. First, to allow the BeamGage user to programmatically
do what they could otherwise do via the graphical user interface (GUI). Second, to expose stable interfaces to the user that
will not change, causing breaks to their dependant code. Interface examples for LabVIEW, Excel and .NET VB are included.
Accessories
Custom Calculations
461
If BeamGage-Standard does not have the measurement you need the Professional and Enterprise versions permit the user to
program-in their own set of calculations. User defined computations are treated the same as other BeamGage standard calculations.
These custom results are displayed on the monitor, logged with results, and included on hard copy print-outs as if they were part of
the original application.
An example of a customer generated custom equation.
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
Camera Compatibility
Model
Spectral Response nm
Application
Number of Elements
Interface Style
Windows OS support
SP907
SP928
190 - 1100nm*
1/1.8” format, slim profile,
wide dynamic range, CW &
pulsed lasers, adjustable ROI
190 - 1100nm*
1/1.8” format, high resolution,
wide dynamic range, CW &
pulsed lasers, adjustable ROI
1928 x 1448
USB 3.0
964 x 724
USB 3.0
Windows 7 (32/64)
SP300
Gevicam
190 - 1100nm*
190 - 1100nm*
1/1.8” format, high resolution, 1/1.8” format, high resolution,
CW & pulsed lasers, adjustable networkable, long cable
distances, adjustable ROI
ROI
1928 x 1448
1600 x 1200
USB 3.0
GigE
Beamprofilers
190-1100nm*
Power /
Energy Meters
For lasers between 190-1100nm wavelenghts, BeamGage interfaces to silicon CCD USB and GigE cameras. For applications
between 1440-1605nm, BeamGage supports cost effective phosphor coated CCD cameras. For demanding applications
between 900-1700nm, BeamGage supports an InGaAs camera. And for applications in the ultraviolet, 13-355nm, or far
infrared or Terahertz range, 1.06-3000nm, BeamGage supports Spiricon’s Pyrocam, pyroelectric array cameras.
G
M2
190-1100nm*
Model
LT665
L11059
190 - 1100nm*
190 - 1100nm*
12.5mm x 10mm, 1” format for large beams,CW & pulsed lasers, 36mm x 24mm, 35mm format for large beams, CW & pulsed
Application
adjustable ROI
lasers, adjustable ROI
Number of Elements
2752 x 2192
4008 x 2672
Interface Style
USB 3.0, USB 2.0
USB 2.0
Windows OS support
Windows 7 (32/64)
*Although our silicon cameras have shown response out to 1320mn it can cause significant blooming which could lead to significant errors of beam width measurements.
We would suggest our XC13 InGaAs camera for these wavelengths to give you the best measurements.
Light Meters
1440-1605nm
Model
Spectral Response nm
Application
SP907-1550
SP928-1550
1440 - 1605nm
NIR wavelengths, 1/1.8” format, low
resolution, adjustable ROI and binning
964 x 724
USB 3.0
Windows 7 (32/64)
Spectral Response nm
Application
Number of Elements
Interface Style
Windows OS support
1440 - 1605nm
NIR wavelengths, 1/1.8” format,
adjustable ROI and binning
1928 x 1448
USB 3.0
1440 - 1605nm
12.5mm x 10mm, 1” format for large
beams, CW & pulsed lasers, adjustable ROI
2752 x 2195
USB 3.0
13-355nm &
1.06-3000μm
900-1700nm
Model
LT665-1550
Accessories
Number of Elements
Interface Style
Windows OS support
Spectrometers
Spectral Response nm
XEVA 100Hz
Model
900 - 1700nm
High resolution InGaAS
performance, NIR wavelengths
320 x 256
USB 2.0
Windows 7 (32)
Spectral Response nm
Application
Number of Elements
Interface Style
Windows OS support
Pyrocam IIIHR
13 - 355nm & 1.06 - 3000μm
UV & Far IR Only commercial
array to view Terahertz
160 x 160
GigE
Windows 7 (32/64)
Pyrocam IV
13 - 355nm & 1.06 - 3000μm
UV & Far IR Only commercial
array to view Terahertz
320 x 320
GigE
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462
Accessories
Light Meters
Spectrometers
M2
Beamprofilers
Power /
Energy Meters
G
463
Light Analysis : Energy & Spectrum
Ordering Information
Item
Description
190 - 1100nm
BeamGage Standard : Beam Profiler Systems (camera and software)
BeamGage Standard software, software license, 1/1.8” format 964x724 pixel camera with 17.5mm C mount CCD
BGS-USB-SP907-OSI
recess. Comes with USB cable and 3 ND filters
BeamGage Standard software, software license, 1/1.8” format 1928x1448 pixel camera with 17.5mm C mount CCD
BGS-USB-SP928-OSI
recess. Comes with USB cable and 3 ND filters
BeamGage Standard software, software license, 1/1.8” format 1928x1448 pixel camera with 17.5mm C mount CCD
BGS-USB3-SP300
recess. Comes with USB 3.0 cable and 3 ND filters
BeamGage Standard software, software license, 1/1.8” format 1600x1200 pixel Gevicam camera with 17.5mm
BGS-GigE-OSI182000
C mount CCD recess. Comes with Cat5e cable, power supply with ext trigger adapter and 3 ND filters
BeamGage Standard Edition software, software license, 1 inch format 2752x2192 pixel camera with 17.5mm
BGS-USB3-LT665
C mount CCD recess. Comes with USB 3.0 cable and 3 ND filters
190 - 1100nm
BeamGage Professional : Beam Profiler Systems (camera and software)
BeamGage Professional software, software license, 1/1.8” format 964x724 pixel camera with 17.5mm C mount
BGP-USB-SP907-OSI
CCD recess. Comes with USB cable and 3 ND filters
BeamGage Professional software, software license, 1/1.8” format 1928x1448 pixel camera with 17.5mm C mount
BGP-USB-SP928-OSI
CCD recess. Comes with USB cable and 3 ND filters
BeamGage Professional software, software license, 1/1.8” format 1928x1448 pixel camera with 17.5mm C mount
BGP-USB3-SP300
CCD recess. Comes with USB 3.0 cable and 3 ND filters
BeamGage Professional software, software license, 1/1.8” format 1600x1200 pixel Gevicam camera with 17.5mm
BGP-GigE-OSI182000
C mount CCD recess. Comes with Cat5e cable, power supply with ext trigger adapter and 3 ND filters
BeamGage Professional Edition software, software license, 1 inch format 2752x2192 pixel camera with 17.5mm
BGP-USB3-LT665
C mount CCD recess. Comes with USB 3.0 cable and 3 ND filters
BeamGage Professional software, software license, 35mm format 4008x2672 pixel camera. Comes with universal
BGP-USB-L11059
power supply, 5 meter USB A-B cable and 3 ND filters (1.0, 2.0 & 3.0, optimized for use in the region of 400700nm; ND 3.0 filter is installed in the input aperture of the camera)
1440 - 1605nm
BeamGage Standard : Beam Profiler Systems (camera and software)
BeamGage Standard software, software license, 1/1.8” format 964x724 pixel camera with 17.5mm C mount CCD
BGS-USB-SP907-1550-OSI
recess. Phosphor coated to 1550 nm. Comes with USB cable and 3 ND filters
BeamGage Standard software, software license, 1/1.8” format 1928x1448 pixel camera with 17.5mm C mount CCD
BGS-USB-SP928-1550-OSI
recess. Phosphor coated to 1550 nm. Comes with USB cable and 3 ND filters
BeamGage Standard Edition software, software license, 1 inch format 2752x2192 pixel camera with 17.5mm
BGS-USB3-LT665-1550
C mount CCD recess. Phosphor coated 1550nm sensor. Comes with USB 3.0 cable and 3 ND filters
1440 - 1605nm
BeamGage Professional : Beam Profiler Systems (camera and software)
BeamGage Professional software, software license, 1/1.8” format 964x724 pixel camera with 17.5mm C mount
BGP-USB-SP907-1550-OSI
CCD recess. Phosphor coated to 1550 nm. Comes with USB cable and 3 ND filters
BeamGage Professional software, software license, 1/1.8” format 1928X1448 pixel camera with 17.5mm C mount
BGP-USB-SP928-1550-OSI
CCD recess. Phosphor coated to 1550 nm. Comes with USB cable and 3 ND filters
BeamGage Professional Edition software, software license, 1 inch format 2752x2192 pixel camera with 17.5mm
BGP-USB3-LT665-1550
C mount CCD recess. Phosphor coated 1550nm sensor. Comes with USB 3.0 cable and 3 ND filters
900 - 1700nm
BeamGage Professional : Beam Profiler Systems (camera and software)
BeamGage Professional software, software license, 320x256 pixel InGaAs camera with C mount recess. .9 to
1.7um spectral band. Comes with universal power supply, USB cable, external trigger cable and 3 ND filters
BGP-USB-XC130
(consult factory for other camera options)
13 - 355nm & 1.06 - 3000μm
BeamGage Professional and one window is included
Pyroelectric array detector, chopped, Grade A, one Gigabit Ethernet port, BeamGage Professional GigE to USB3
PY-III-HR-C-A-PRO
adaptor, hard shipping case, 3 meter GigE cable, and power supply w/locking connector included. To complete
this order you must add an interchangeable window part number to accompany this system (see below)
Pyroelectric array detector, chopped, Grade A, one Gigabit Ethernet port, BeamGage Professional GigE to USB3
adaptor, hard shipping case, 3 meter GigE cable, and power supply w/locking connector included. To complete
PY-IV-C-A-PRO
this order you must add an interchangeable window part number to accompany this system (see below)
Windows for Pyrocam IIIHR
PY-III-HR-W-BK7-1.064
Pyrocam III-HR window assembly, BK7, A/R coated for 1.064μm
PY-III-HR-W-SI-1.05-2.5
Pyrocam III-HR window assembly, Si, A/R coated for 1.05 to 2.5μm
PY-III-HR-W-SI-2.5-4
Pyrocam III-HR window assembly, Si, A/R coated for 2.5 to 4μm
PY-III-HR-W-GE-3-5.5
Pyrocam III-HR window assembly, Ge, A/R coated for 3 to 5.5μm
PY-III-HR-W-GE-10.6
Pyrocam III-HR window assembly, Ge, A/R coated for 10.6μm
PY-III-HR-W-GE-8-12
Pyrocam III-HR window assembly, Ge, A/R coated for 8 to 12μm
PY-III-HR-W-ZNSE-10.6
Pyrocam III-HR window assembly, ZnSe, A/R coated for 10.6μm
PY-III-HR-W-ZNSE-2-5
Pyrocam III-HR window assembly, ZnSe, A/R coated for 2 to 5μm
PY-III-HR-W-BaF2-Uncoated
Pyrocam III-HR window assembly,BaF2 uncoated for 193 to 10μm
PY-III-HR-W-POLY-THZ
Pyrocam III-HR window assembly, LDPE, uncoated for Terahertz wavelengths
Windows for Pyrocam IV
PY-IV-W-BK7-1.064
Pyrocam IV window assembly, BK7, A/R coated for 1.064μm
PY-IV-W-SI-1.05-2.5
Pyrocam IV window assembly, Si, A/R coated for 1.05 to 2.5μm
PY-IV-W-SI-2.5-4
Pyrocam IV window assembly, Si, A/R coated for 2.5 to 4μm
PY-IV-W-GE-3-5.5
Pyrocam IV window assembly, Ge, A/R coated for 3 to 5.5μm
PY-IV-W-GE-10.6
Pyrocam IV window assembly, Ge, A/R coated for 10.6μm
PY-IV-W-GE-8-12
Pyrocam IV window assembly, Ge, A/R coated for 8 to 12μm
PY-IV-W-ZNSE-10.6
Pyrocam IV window assembly, ZnSe, A/R coated for 10.6μm
PY-IV-W-ZNSE-2-5
Pyrocam IV window assembly, ZnSe, A/R coated for 2 to 5μm
PY-IV-W-ZNSE-UNCOATED
Pyrocam IV window assembly, ZnSe, uncoated
PY-IV-W-POLY-THZ
Pyrocam IV window assembly, LDPE, uncoated for Terahertz wavelengths
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
P/N
SP90417
SP90421
SP90375
SP90267
SP90377
SP90418
SP90422
SP90376
SP90268
SP90378
SP90320
SP90419
SP90423
SP90384
SP90420
SP90424
SP90385
SP90241
SP90405
SP90404
SP90365
SP90366
SP90367
SP90368
SP90369
SP90370
SP90371
SP90372
SP90373
SP90374
SP90301
SP90302
SP90303
SP90304
SP90305
SP90306
SP90307
SP90308
SP90336
SP90309
Light Analysis : Energy & Spectrum
Accessories for Beam Profiling
Power /
Energy Meters
Neutral Density Attenuators/Filters
Nominal ND value
1, 2, 3
Clear aperture
φ19mm
Damage threshold
5W/cm² no distortion
Mounting
C-Mount Threads
ATP-K
Variable
Attenuator
ND=1.7 - 4.6
Max. ND: 7.4
0.3, 0.7, 1, 2, 3, 4
(with fixed 2.8
grayglass
attenuator)
φ12mm
φ15mm
100mW/mm
no
5W/cm² no distortion thermal lensing
C-Mount Threads
C-Mount Threads
LBF-50
UV ND Filters
Speciality
Filter for
355nm
Speciality
Filter for
1300nm
0.3, 0.7, 1.0,1.3,1.7, Pass 355nm,
Pass 1300nm,
2.0, 2.3,2.7, 3.0,
blocks 532nm &
blocks <1100nm
3.3, 3.7,4.0, 4.3,
1064nm
4.7, 5.0, 6.0
φ20mm
φ19mm
φ19mm
100W/ cm² CW, 10ns 5W/ cm² no distortion 5W/ cm² no distortion
pulses, no distortion
C-Mount Threads
C-Mount Threads C-Mount Threads
LBS -400
multiple versions from 190 to 1550nm
UV or 10.6μm
Reflection
0.01% of incident beam
0.01%
0.3, 0.7, 1, 2, 3, 4
0.5, 1.0 in both filters
φ17.5mm
see spec sheet
C-Mount Threads
φ31.75mm
see spec sheet
Custom thread
Nominal ND value
(vis)
Clear aperature
Damage threshold
Mounting
multiple versions; 400 - 700nm, 1064nm, 10.6 μm
4% @ 400-900nm, 1% @1064nm, 0.5% or
5% @10.6μm
0.3, 0.7, 1, 2, 3, 4 for 300 - 700nm & 1064nm,
30% & 60% for 10.6μm
φ19mm
5W/cm² no distortion
C-Mount and Lab post mounted
Light Meters
Wavelength
LBS-100
Spectrometers
LBS-300
M2
Beam Splitter + Neutral Density Filters Combo
Model
Beamprofilers
Stackable ND
Filters
ND1/ND2/ND3
Model
G
LBS-300 Beam Splitters Ordering Information
LBS-300-UV
LBS-300-VIS
LBS-300-NIR
Part No.
Wavelength
Wedge Material
Wedge Coating
Clear aperture
Reflection
Wedge ND value, each
SP90183
266-355nm
UVFS
A/R ೇ1%
17.5mm
0.01%
ND ೈ2
SP90184
400-700nm
BK7
A/R ೇ1%
17.5mm
0.01%
ND ೈ2
SP90185
1064nm
BK7
A/R ೇ1%
17.5mm
0.01%
ND ೈ2
ND Filters
Inconel
Bulk ND
Bulk ND
0.3, 0.7, 1.0, 2.0, 3.0, 4.0
(Blue holders)
3
100 W/cm2 CW
20mJ/cm2 , 10ns pulse
0.3, 0.7, 1.0, 2.0, 3.0, 4.0
(Green holders)
3
50 W/cm2 CW
1J/cm2 , 10ns pulse
0.3, 0.7, 1.0, 2.0, 3.0, 4.0
(Red holders)
3
50 W/cm2 CW
1J/cm2 , 10ns pulse
ND Values, nominal
Filter Slides
Maximum allowable input to filter
(1)
(1)
LBS-300-BB
SP90186
190-1550nm
UVFS
No coating, 4% reflection
17.5mm
0.16%
ND ~1.3
One each of the UV, VIS &
NIR sets
See UV, VIS and NIR
descriptions
9
Accessories
Model
See adjacent specifications
ND bulk absorbing filters damage threshold is 50W/cm2 but should be used at <5W/cm2 to avoid thermal lensing effects.
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464
LBS-400 Beam Splitters Ordering Information
Model
Filter Damage
SP90349
10.6μm
ZnSe
A/R ೇ1%
1.25 inch (31.75mm)
0.01%
ND ೈ2
CaF2
0.5, 1.0 in both filters
2
5W/cm2
2
300 J/cm , 1ms pulse
2
LBS-400-UV
LBS-400-NIR
SP90351
193-355nm
UVFS
A/R ೇ1%
1.25 inch (31.75mm)
0.01%
ND ೈ2
Inconel
0.5, 1.0 in both filters
2
SP90354
1064nm
BK7
A/R ೇ1%
1.25 inch (31.75mm)
0.01%
ND ೈ2
Bulk ND
0.5, 1.0 in both filters
2
100W/cm2
50W/cm2
2
2
20mJ/cm , 10ns pulse
1J/cm , 10ns pulse
2
ND bulk absorbing filters damage threshold is 50W/cm but should be used at <5W/cm to avoid thermal lensing effects.
M2
(1)
(1)
Beam Splitter
Model
Light Meters
LBS-400-IR
Part No.
Wavelength
Wedge Material
Wedge Coating
Clear Aperture
Reflection
Wedge ND value (each)
Filter Material
Filter ND Values nominal
Adjustable Filter Slides
Spectrometers
Beamprofilers
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
Wavelength
Reflection
Clear aperture
Damage threshold
Mounting
Single & Dual Front-Surface
Beam Samplers
400 - 700nm
1064nm
190 - 2000nm
200nm - 2.5μm
4% & 0.16% of incident beam 0.5% & 0.0025% of incident 5% & 0.25% of incident beam 0.057% @ 532nm
φ17.5mm
φ17.5mm
φ15mm
14mm x 14mm
5W/cm² no distortion
5W/cm² no distortion
>5J/cm²
100mW/cm²
C-Mount Threads
C-Mount Threads
C-Mount Threads
C-Mount Threads
Beam Tap l & ll
Beam Tap l & ll YAG
Stackable Beam Splitter
Accessories
Beam Expanders Microscope Objectives
Model
Wavelength
Beam Size Change
Clear aperture
Mounting
465
Beam Expander
400 - 1800nm
4X, 6X, 12X, 22X
1/4 the size of the CCD imager
C or CS Mount Threads
4X Beam Expander with UV Converter
193nm - 360nm
4X Expansion
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Light Analysis : Energy & Spectrum
Beam Reducers
Beamprofilers
4X beam reducer
Specifications
Power /
Energy Meters
CCTV Lens for Front Imaging Through Glass or
Reflected Surface
G
4X Beam Reducer
Spectral Range
Description
25mm focal length lens assembly with locking
iris and focus adjustment.
Includes 8mm spacer x 1pc and 5mm spacers x
2pcs
50mm focal length lens assembly with locking
iris and focus adjustment.
50mm focal length CCTV lens kit
Includes 8mm spacer x 1pc and 5mm spacers x
2pcs
25mm focal length CCTV lens kit
M2
360nm to 1100nm
Antireflection coating optimized for 1064nm and
532nm
Beam reduction Accuracy ± 3%
Size
Ø60 mm dia x 94mm length
Aperture
50mm
SP 503: 25x19mm, FX 33: 18x14mm, SP 620 or
Maximum Beam Size
GRAS20: 28x21.2mm
Distortion of Beam
Less than 1% over 80% of diameter
Damage Threshold
30mJ per pulse for nanosecond pulses
Antireflection Coating
Item
Spectrometers
Imaging UV lasers
Light Meters
Specifications
Beam Reduction
Resolution
Spectral range
Minimum signal
Saturation intensity
Effective Aperture
Damage threshold
Dimensions
1X UV Image Converter with Optional
Beam Splitter
4X beam expander with UV converter
4X Beam Expander with UV
converter
4X reduction ±2% with included correction 1:1 imaging ±2% with included correction 4X expansion ±2% with included correction
factor
factor
factor
50μm x 50μm
35μm x 35μm
15μm x 15μm
193 to 360nm
~1μJ/cm2 with blank filter
4X UV Image Reducing Converter
1X UV Image Converter
Accessories
4X beam reducing UV Image Converter
as mounted on Camera
~30mJ/cm2 at 193nm, ~15mJ/cm2 at
~15mJ/cm2 at 193nm, ~20mJ/cm2 at
~30mJ/cm2 at 193nm, ~15mJ/cm2 at
248nm with included filter 20 times above 248nm with included filter, 20 times greater 248nm 20 times above values with optional
values with optional beam splitter
with optional beam splitter
beam splitter
φ30mm but effective beam size is limited to φ18mm but effective beam size is limited to
1/4 the size of the CCD dimensions
4X CCD dimensions
CCD dimensions
100W/cm² or 2J/ cm2 with beam splitter
Ø50mm dia x 185mm length
Ø31mm dia x 120mm length
Ø29mm dia x 69mm length
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466
Introduction to Scanning-Slit Profilers
The scanning slit beam profiler moves two narrow orthogonal slits in front of a linear
photo-detector through the beam under analysis. Light passing through the slit induces
a current in the detector. Thus, as the slit scans through the beam, the detector signal
is linearly proportional to the spatial beam irradiance profile integrated along the slit.
A digital encoder provides accurate slit position. The photo-induced current signal
is digitized and analyzed to obtain the beam profile in both X and Y from the two
orthogonal slits.
The slit apertures act as physical attenuators, preventing detector saturation for most
beam applications. High dynamic range amplification allows operation over many orders
of magnitude in beam power.
From these profiles, important spatial information such as beam width, beam position,
beam quality, and other characteristics are determined. This technique can accommodate
a wide variety of test conditions. Because slit scanners measure beams at high powers
with little or no attenuation, they are ideal to profile beams used in material processing.
Carbon dioxide (CO2) lasers are widely used in materials processing, and have a 10.6
micron wavelength that cannot be profiled with most cameras. Slit scanners, therefore,
provide an convenient means of measuring high-resolution CO2 lasers with powers up to
and exceeding 1000 watts.
Accessories
Light Meters
Spectrometers
M2
Beamprofilers
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
467
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
NanoScan 2s
Beamprofilers
M2
NanoScan 2s combines the convenience and portability
of direct USB connectivity with the speed, accuracy, and
dynamic range that users have come to expect from the
Photon NanoScan slit based profilers. The NanoScan 2s is
available with a silicon, germanium or pyroelectric detector,
which allows it to profile lasers of any wavelength from UV
to far infrared, out to 100μm and beyond. With the new
NanoScan 2s software package, the user can configure the
display interface however it is desired; displaying those
results of most interest on one easy-to-read screen, or on
multiple screens.
The NanoScan slit profiler is the most versatile laser
beam profiling instrument available today: providing
instantaneous feedback of beam parameters for CW and
kilohertz pulsed lasers, with measurement update rates to
20Hz. The natural attenuation provided by the slit allows
the measurement of many beams with little or no additional
attenuation. The high dynamic range makes it possible
to measure beams while adjustments to focus are made
without having to adjust the profiler. Just aim the laser into
the aperture and the system does the rest!
Power /
Energy Meters
Scanning Slit Beam Profiler For High Accuracy Dimensional Measurement
G
Capabilities
Accessories
* Absolute measurement accuracy is guaranteed by NIST traceable calibration of every NanoScan
* Measure any wavelength from UV to very far infrared (190nm to >100μm)
* Instantaneous real time display of results; beam found in less than 300ms and updated at up to 20Hz
* Waist location can be determined to within ±25μm due to the well-defined Z-axis datum plane of the NanoScan
* Measure pulsed and CW lasers
* For pulsed beams the pulse rate is measured and reported
* From as small as 7μm beams, can be measured directly with guaranteed accuracy and precision
* Additional high signal to noise ratio can be achieved with averaging
* Z-axis caustic measurements are available with built-in mechanical linear stage control
2
2
* M propagation ratio values available with simple M Wizard included with the software.
* Any beam result can be charted and monitored over time
* Power levels can be monitored along with spatial measurements to determine if losses are introduced by beam adjustments
* Log results to text files for independent analysis
* Automate the system using optional ActiveX Automation commands, available with the PRO version software and scan
heads Samples of automation programs included for Excel,VBA, LabView and Visual Basic.net
Light Meters
Benefits
Spectrometers
NanoScan 2s is a PC-based instrument for the measurement and analysis of laser beam spatial irradiance profiles in
accordance with the ISO standard 11146. The scan heads also measure power in accordance with ISO 13694.
NanoScan uses the scanning slit, one of the ISO Standard scanning aperture techniques. It can measure beam sizes from
microns to centimeters at beam powers from microwatts to over kilowatts, often without attenuation. Detector options allow
measurement at wavelengths from the ultraviolet to the infrared.
The NanoScan 2s digital controller has 16-bit digitization of the signal for enhanced dynamic range up to 35dB power
optical. With the accuracy and stability of the beam profile measurement you can measure beam size and beam pointing
with a 3-sigma precision of several hundred nanometers. The software controllable scan speed and a “peak-connect”
algorithm allows the measurement of pulsed and pulse width modulated lasers with frequencies of 10kHz and higher(a). The
NanoScan is also able to measure up to 16 beams, or regions of interest, in the aperture simultaneously.
(a) The minimum frequency is a function of the beam size and the scan speed. This is a simple arithmetic relationship; there must be a sufficient number of pulses during the
time that the slits sweep through the beam to generate a meaningful profile. Please refer to Photon's Application Note, Measuring Pulsed Beams with a Slit-Based Profiler.
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468
NanoScan 2s Configurable User Interface
In addition to new hardware, the NanoScan 2s has an updated integrated software package for the Microsoft Windows
Platform, which allows the user to display any of the results windows on one screen. The NanoScan 2s software comes in
two versions, STD and PRO. The NanoScan 2s Pro version includes ActiveX automation for users who want to integrate the
NanoScan into OEM systems or create their own user interface screens with C++, LabView, Excel or other OEM software
packages.
Accessories
Light Meters
Spectrometers
M2
Beamprofilers
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
469
Example of display configuration window
Integrated Power Meter
The silicon and germanium detector equipped
NanoScan 2s systems include an integrated
200mW power meter. The scanhead comes
with a quartz attenuator window that provides
a uniform response across a broad wavelength
range.
This is a relative power meter that has better
than 1.5% correspondence when calibrated
with a user-supplied power meter and used in
the same configuration as calibrated.
The power meter screen in the software
shows both the total power and the individual
power in each of the beams being measured.
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
Available Detectors
Apertures and Slits
NanoScan 2s Scanhead Model
Ge/3.5/1.8μm
Ge/9/5μm
Ge/9/25μm
Wavelength
Slit Size
Aperture Size
1/e2 Beam Diameter Range
Spatial Sampling Resolution
Profile Digitization
Scan Frequency
Power Reading
Power Aperture Window
Laser Type
Operating Range
Damage Threshold
Rotation Mount
Scanhead Dimension
700nm - 1800nm
1.8μm
3.5mm
7μm - 2.3mm
700nm - 1800nm
5μm
9mm
20μm - 6mm
5.3nm - 18.3μm
16-bit
1.25, 2.5, 5, 10, 20Hz
User calibrated
Metalized Quartz (200mW upper limit)
CW or Pulsed
See Operating Space Charts
See Operating Space Charts
Standard
63.4mm diameter x 102.6mm long
700nm - 1800nm
25μm
9mm
100μm - 6mm
NanoScan 2s Scanhead Model
Wavelength
Slit Size
Aperture Size
1/e2 Beam Diameter Range
Spatial Sampling Resolution
Profile Digitization
Scan Frequency
Power Reading
Power Aperture Window
Laser Type
Operating Range
Damage Threshold
Rotation Mount
Scanhead Dimension
Pyro/9/5μm
Pyro/9/25μm
190nm - >100μm
5μm
9mm
20μm - 6mm
190nm - >100μm
25μm
9mm
100μm - 6mm
Accessories
Si/9/25μm
190nm - 950nm
25μm
9mm
100μm - 6mm
Light Meters
Si/9/5μm
190nm - 950nm
5μm
9mm
20μm - 6mm
5.3nm - 18.3μm
16-bit
1.25, 2.5, 5, 10, 20Hz
User calibrated
Metalized Quartz (200mW upper limit)
CW or Pulsed
See Operating Space Charts
See Operating Space Charts
Standard
63.4mm diameter x 102.6mm long
Spectrometers
Si/3.5/1.8μm
190nm - 950nm
1.8μm
3.5mm
7μm - 2.3mm
M2
NanoScan 2s Scanhead Model
Wavelength
Slit Size
Aperture Size
1/e2 Beam Diameter Range
Spatial Sampling Resolution
Profile Digitization
Scan Frequency
Power Reading
Power Aperture Window
Laser Type
Operating Range
Damage Threshold
Rotation Mount
Scanhead Dimension
Beamprofilers
The NanoScan 2s is available with a variety of apertures and slit sizes to allow for the accurate measurement of varying beam sizes.
The slit width defines the minimum beam width that can be measured; due to convolution error, the slit should be no larger than
1/4 the beam diameter to provide a ±3% accurate measurement. For this reason the minimum beam diameter measureable with the
standard 5μm slit is 20μm. To measure beams smaller than 20μm it is necessary to use the small aperture 1.8μm slit instrument,
providing a minimum beam diameter of ~8μm. Because these slits are so narrow, the maximum length limits the aperture to 3.5mm.
Contrary to many people’s beliefs, these smaller slits do not improve the resolution of the measurement, only the minimum size of
the beam. Therefore, unless it is necessary to measure beams less than 20μm, one would be advised to stick with the 9mm/5μm
configurations.
For very large beams, NanoScan is available with a large 20 or 25mm aperture with 25μm slits. These sensor are larger than the
standard scan heads (100mm diameter)
Power /
Energy Meters
The NanoScan 2s is available with silicon, germanium or pyroelectric detectors to cover the light spectrum from UV to very
far infrared.
G
5.3nm - 18.3μm
16-bit
1.25, 2.5, 5, 10, 20Hz
Not Availble
NA
CW or Pulsed
See Operating Space Charts
See Operating Space Charts
Standard
63.4mm diameter x 102.6mm long
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470
Beamprofilers
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
The Most Versatile and Flexible Beam Profiling System
Available
With the available range of detectors, slit sizes and apertures the
NanoScan 2s provides the maximum versatility in laser beam profiling.
NanoScan 2s adds the convenience and portability of direct USB
connectivity: no external controllers or power supplies required to
operate the profiler. In addition the rotation mount has been redesigned
to provide a stand for vertical operation, if desired. The mount can be
positioned in one of two places. If vertical operation is desired the mount
is positioned toward the back of the scanhead to expose the stand,
which can be affixed to the optical table or stage. If standard horizontal
operation is desired, then the rotation mount can be positioned in the
forward configuration, maintaining the original length and size of the
scanhead.
The new NanoScan 2s graphical user interface (GUI) allows the user to set the display screens to any appropriate
configuration, displaying those that are of interest and hiding what is not. This means that you can have the information that
you want to see, uncluttered by extraneous output, and you can have all the features you need, visible at once. The screens
can be docked or floating with ribbon bars for the controls that can be visible or hidden as desired. This allows you to take
advantage of a large, multi-monitor desk top or maximize the useful information on a small laptop display.
Spectrometers
M2
See Your Beam As Never Before
Both docked and undocked windows : profiles , results , and pointing
Accessories
Light Meters
Simple docked view of profiles and numerical results
Example of time charts used to monitor focusing process
471
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
Measured Beam Results
Results measured include:
Beamprofilers
* Beam Width at standard and user-definable clip levels, including 1/e2 and 4σ
* Centroid Position
* Peak Position
* Ellipticity
* Gaussian Fit
* Beam Divergence
* Beam Separation
* Pointing Stability
* ROI Power
* Total Power
* Pulsed Laser Repetition Rate
Power /
Energy Meters
From 1989 through 1996, John Fleischer, founder and past President of Photon Inc., chaired the working laser beam width
ISO/DIN committee that resulted in the ISO/DIN 11146 standard. The final approved standard, available in 13 languages. The
standard governs profile measurements and analysis using scanning apertures, variable apertures, area sensors and detector
arrays. NanoScan 2s measures spatial beam irradiance profiles using scanning slit techniques.
G
M2
Spectrometers
Example of the many measurements that can be made and the precision you can expect
Light Meters
Accessories
Knowing pointing stability is a critical factor in laser performance
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472
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
NanoScan 2s Acquisition and Analysis Software
NanoScan
Standard
Feature
Controls
ScanHead Select, Gain, Filter, Sampling Resolution,
AutoFind, Rotation Frequency, Record Mode
Averaging, Rotation, Magnification, CW or Pulse Modes,
Capture
Divergence, Gaussian Fit, Reference Position, Recompute
Regions of Interest (ROI) Single or Multiple, Automatic or Manual, Colors
Profiles
Vertical Scale (1´, 10´, 100´), Logarithmic Scale, Z & PAN(Automatic or Manual)
Dslit, (13.5%, 50% 2 User Selectable Clip Levels), D4O, Width ratios, Centroid
Computation:ISO 13694,
Position, Peak Position, Centroid Separation,Peak Separation, Irradiance, Gaussian
ISO11146
Fit, Ellipticity,Divergence, Total Power, Pulse Frequency, % power
Continuous, Rolling, Finite
Pointing
Centroid or Peak, Accumulate Mode, Beam Indicator, Graph Center, Colors
2D or 3D Mode, Linear or Logarithmic Scale, Resolution, Fill Contours, Solid Surface,
2D/3D
or Wireframe, Clip Level Colors
Charts
Chart Select, Parameter Select, Aperture Select, Update Rate, Start and Clear
Logging
File Path/Name, Delimiter, Update Rate
2
Rail
Setup: Com Port and Length, Connect/Disconnect, Rail Control
M
Views
Profiles
Displays Beam Profiles for each axis, with optional Gaussian Overlays
Results
Displays Values and Statistics for Selected results
Displays the XY position of the Centroid or Peak for each ROI , with optional overlays
Pointing
and Accumulate Mode
Charts
Displays Time Charts for User-selected results
2D/3D
Displays pseudo 2D/3D Beam Profile
Accessories
Light Meters
Spectrometers
M2
Beamprofilers
Source
˗
˗
˗
˗
˗
˗
˗
˗
˗
˗
˗
˗
˗
˗
˗
˗
˗
M 2 Wizard
An interactive procedure for measuring M2 by the Rayleigh Method
File Saving
˗
NanoScan Data Files
˗
Text Files
Data Logging
˗
Log to File
Reports
˗
NanoScan Report
Automation Interface
˗
ActiveX Automation Server
Minimum System Requirements
PC computer running windows 7 (32/64) Laptop or Desktopa
A dual core processor CPU, 2GHz or better
b
2GB of RAM
1-USB 2.0 port available
At least 250MB of free HDD space
1400 x 900 display resolution or better
Graphics card w/hardware accelerator
DVD-ROM drive
Microsoft compatible pointing devices (e.g., mouse, trackball, etc)
a. A business/professional version of windows is recommended. The NanoScan v2 software has not been tested with home versions of Windows. Both 64-bit and 32-bit
versions of Windows 7 are supported. NanoScan v2 is no longer tested on Windows XP 32-bit operating systems.
b. The computer memory (RAM) will affect the performance of the software in the Data Recorder.
Model
Bus interface
Signal digitization
Maximum digitization clock
Maximum update rate
Data transfer
On-board memory
Weight
Operating temperature
Humidity
Scanhead Dimensions
Power
CPU Clock
Memory Clock
Scanning Motor
473
NanoScan
Professional
(all features in
standard plus)
General Specification
USB 2.0
16bit
21.4MHz
20Hz
Bulk Transfer Mode
64MB mDDR SDRAM
434g (15.3 ounces)
0-50oC
90%, non-condensing
3.03”(7.68cm) L X 2.5”(6.35cm) Ø
USB 2.0 Bus Powered
300MHz
264MHz
Brushed DC, 4W max
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
Typical NanoScan Operating Space Charts
Silicon Detector
Silicon Detector: Responsivity varies with wavelength. Detects between 400-1100nm. Peak responsivity is 0.7 amps/watt
at 980nm. Detector to detector responsivity variation can be as great as ±20%.
Pulsed Operation ( —— ): Upper limit of the operating space for pulsed laser measurements.
Black Coating Removed ( —— ): Slits are blackened to reduce back reflections; blackening begins to vaporize near
this line. Slits in pyro detectors are not blackened.
M2
Slit Damage ( —— ): Power density (watts/cm2) where one can begin to ablate and cut the slits.
Refer to Spiricon’s Damage Threshold with High Power Laser Measurements document.
Left Boundary: The left boundary is 4 times the slit width, where slit convolution error becomes significant to the 5%
level for reported 1/e2 diameter of a TEM00 Gaussian beam.
Right Boundary: The right boundary is the instrument entrance aperture diameter, which determines the largest beam
profile and diameter that can be measured. For a TEM00 Gaussian beam the 1/e2 diameter needs to be ≤1/2 the aperture
diameter to measure and see the entire profile out to the tails. Similarly for a Flat-top distribution the 1/e2 diameter needs
to be ≤~95% of the aperture diameter. To obtain any given clip level diameter for any beam (but not the full profile)
~95% of the aperture is useable.
Beamprofilers
Power: Average power in the laser beam.
Beam Diameter: Assumes a round beam. The operating point for an elliptic beam can be approximated by using the
average diameter. For extremely elliptic beams (ratio >4:1), contact Spiricon.
Power /
Energy Meters
Operating range is at peak sensitivity of detector. Operating space is NOT absolute.
THESE CHARTS TO BE USED AS A GUIDE ONLY.
G
Spectrometers
Germanium Detector
Germanium Detector
Responsivity: Detector converts constant, incident photons to a current.
Detector: Responsivity varies with wavelength. Detects between 800-1800nm. Peak responsivity is 1.05 amps/
watt at 1550nm. Detector to detector responsivity variation can be as great as ±20%.
Pulsed Operation ( —— ): Upper limit of the operating space for pulsed laser measurements.
Black Coating Removed ( —— ): Slits are blackened to reduce back reflections; blackening begins to vaporize near
this line. Slits in pyro detectors are not blackened.
Accessories
Power: Average power in the laser beam.
Beam Diameter: Assumes a round beam. The operating point for an elliptic beam can be approximated by using the
average diameter. For extremely elliptic beams (ratio >4:1), contact Spiricon.
Light Meters
Silicon Detector
Slit Damage ( —— ): Power density (watts/cm2) where one can begin to ablate and cut the slits. Refer to Spiricon’s
Damage Threshold with High Power Laser Measurements document.
Left Boundary: The left boundary is 4 times the slit width, where slit convolution error becomes significant to the 5% level for
reported 1/e2 diameter of a TEM00 Gaussian beam.
Right Boundary: The right boundary is the instrument entrance aperture diameter, which determines the largest beam
profile and diameter that can be measured. For a TEM00 Gaussian beam the 1/e2 diameter needs to be ≤1/2 the aperture
diameter to measure and see the entire profile out to the tails. Similarly for a Flat-top distribution the 1/e2 diameter needs to
be ≤~95% of the aperture diameter. To obtain any given clip level diameter for any beam (but not the full profile) ~95% of
the aperture is useable.
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474
M2
Beamprofilers
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
Pyroelectric Detector
Pyroelectric Detector
Pyroelectric Detector: Uniform in response between 0.2 and 20 microns wavelength.
Power: Average power in the laser beam.
Beam Diameter: Assumes a round beam. The operating point for an elliptic beam can be approximated by using the
average diameter. For extremely elliptic beams (ratio >4:1), contact Spiricon.
Slit Damage ( —— ): Power density (watts/cm2) where one can begin to ablate and cut the slits. Refer to Spiricon’s
Damage Threshold with High Power Laser Measurements document.
Left Boundary: The left boundary is 4 times the slit width, where slit convolution error becomes significant to the 5%
level for reported 1/e2 diameter of a TEM00 Gaussian beam.
Spectrometers
Right Boundary: The right boundary is the instrument entrance aperture diameter, which determines the largest beam
profile and diameter that can be measured. For a TEM00 Gaussian beam the1/e2 diameter needs to be ≤1/2 the aperture
diameter to measure and see the entire
profile out to the tails. Similarly for a Flat-top distribution the 1/e2 diameter needs to be ≤~95% of the aperture diameter.
To obtain any given clip level diameter for any beam (but not the full profile) ~95% of the aperture is useable.
Ordering Information
Item
NanoScan 2s Silicon Detector 3.5mm aperture 1.8 μm slits. High-resolution head featuring Silicon
detector, 63.5mm diameter head with rotation mount, 3.5mm entrance aperture, and matched pair of
1.8 μm wide slits. Use from 190nm to wavelengths <1 μm. Not for 1.06 μm wavelength
NanoScan 2s Si Detector 9mm aperture 5 μm slits. High-resolution head featuring Si detector, 63.5mm
NS2s-SI/9/5-STD
diameter head with rotation mount, 9mm entrance aperture, and matched pair of 5 μm wide slits. Use
from 190nm to wavelengths <1 μm. Not for 1.06 μm wavelength
NanoScan 2s Si Detector 9mm aperture 25 μm slits. High-resolution head featuring Si detector, 63.5mm
NS2s-SI/9/25-STD
diameter head with rotation mount, 9mm entrance aperture, and matched pair of 25 μm wide slits. Use
from 190nm to wavelengths <1 μm. Not for 1.06 μm wavelength
NanoScan 2s Ge Detector 3.5mm aperture 1.8 μm slits. High-resolution head featuring Germanium
detector, 63.5mm diameter head with rotation mount, 3.5mm entrance aperture, and matched pair of
NS2s-Ge/3.5/1.8-STD
1.8 μm wide slits. Use from 700nm to 1.8 μm wavelength
NanoScan 2s Ge Detector 9mm Aperture 5 μm slits. High-resolution head featuring Germanium detector,
NS2s-Ge/9/5-STD
63.5mm diameter head with rotation mount, 9mm entrance aperture, and matched pair of 5 μm wide
slits. Use from 700nm to 1.8μ m wavelength
NanoScan 2s Ge Detector 9mm Aperture 25 μm slits. High-resolution head featuring Germanium
detector, 63.5mm diameter head with rotation mount, 9mm entrance aperture, and matched pair of
NS2s-Ge/9/25-STD
25 μm wide slits. Use from 700nm to 1.8 μm wavelength
NanoScan 2s Pyro Detector 9mm Aperture 5.0 μm slits. High-resolution head featuring pyroelectric
NS2s-PYRO/9/5-STD
detector, 63.5mm diameter head with rotation mount, 9mm entrance aperture, and matched pair of
5 μm wide slits. Use from 190nm to >100 μm wavelength
NanoScan 2s Pyro Detector 9mm Aperture 25.0 μm slits. High-resolution head featuring pyroelectric
NS2s-PYRO/9/25-STD
detector, 63.5mm diameter head with rotation mount, 9mm entrance aperture, and matched pair of
5 μm wide slits. Use from 190nm to >100 μm wavelength
NanoScan 2s Silicon Detector 3.5mm aperture 1.8 μm slits. High-resolution head featuring Silicon
detector, 63.5mm diameter head with rotation mount, 3.5mm entrance aperture, and matched pair of
NS2s-Si/3.5/1.8-PRO
1.8 μm wide slits. Use from 190nm to wavelengths <1 μm. Not for 1.06 μm wavelength
Software includes ActiveX automation feature
NanoScan 2s Si Detector 9mm aperture 5 μm slits. High-resolution head featuring Si detector, 63.5mm
diameter head with rotation mount, 9mm entrance aperture, and matched pair of 5 μm wide slits. Use
NS2s-Si/9/5-PRO
from 190nm to wavelengths <1 μm. Not for 1.06 μm wavelength
Software includes ActiveX automation feature
NanoScan 2s Si Detector 9mm aperture 25 μm slits. High-resolution head featuring Si detector, 63.5mm
diameter head with rotation mount, 9mm entrance aperture, and matched pair of 25 μm wide slits. Use
NS2s-Si/9/25-PRO
from 190nm to wavelengths <1 μm. Not for 1.06 μm wavelength
TEL : (03)462-6569
/ (04)2261-0357
(台中) / (06)208-6651 (台南)
Software (桃園-總公司)
includes ActiveX automation
feature
NanoScan 2s Ge Detector 3.5mm aperture 1.8 μm slits. High-resolution head featuring Germanium
Accessories
Light Meters
NS2s-SI/3.5/1.8-STD
475
Description
P/N
PH00421
PH00422
PH00423
PH00424
PH00425
PH00426
PH00427
PH00428
PH00429
PH00430
PH00431
NS2s-Si/3.5/1.8-PRO
NS2s-Si/9/5-PRO
Item
NS2s-SI/9/5-STD
NS2s-Ge/3.5/1.8-PRO
NS2s-SI/9/25-STD
NS2s-Ge/9/5-STD
NS2s-Ge/9/25-PRO
NS2s-Ge/9/25-STD
NS2s-Pyro/9/5-PRO
NS2s-PYRO/9/5-STD
Software Upgrades
NSv2
STD to NSv2 PRO
NS2s-Si/3.5/1.8-PRO
Upgrade
NS2s-Si/9/25-PRO
NS2s-Ge/9/5-PRO
NS2s-Ge/9/25-PRO
NS2s-Pyro/9/25-PRO
PH00423
PH00433
PH00424
PH00425
PH00434
PH00426
PH00435
PH00427
PH00436
PH00428
PH00429
PH00417
PH00073
PH00430
PH00070
PH00227
PH00431
PH00432
PH00433
PH00434
PH00435
Accessories
NS2s-Pyro/9/5-PRO
PH00432
Light Meters
NS2s-Ge/3.5/1.8-PRO
PH00422
Spectrometers
Accessories
RAL-FXT
NS2s-Si/9/5-PRO
COL-FXT 250
COL-FXT 500
NanoScan 2s Silicon Detector 3.5mm aperture 1.8 μm slits. High-resolution head featuring Silicon
Upgrade
v2 Standard
software
to the
PRO version.
upgrade
thepair
NanoScan
detector, NanoScan
63.5mm diameter
head version
with rotation
mount,
3.5mm
entrance This
aperture,
and opens
matched
of
automation
wanting
to integrate
develop
using Visual Basic
1.8 μm widefeature
slits. for
Usethose
from users
190nm
to wavelengths
<1 or
μm.
Not fortheir
1.06own
μminterface
wavelength
for Applications
embed into
such applications
as LabView. Return scanhead to factory
Software
includesto ActiveX
automation
feature
NanoScan 2s Si Detector 9mm aperture 5 μm slits. High-resolution head featuring Si detector, 63.5mm
Rayleighhead
fixture
forrotation
manualmount,
M2 9mm entrance aperture, and matched pair of 5 μm wide slits. Use
diameter
with
250 190nm
mm FL to
collimation
fixture
from
wavelengths
<1 μm. Not for 1.06 μm wavelength
500 mmincludes
FL collimation
Software
ActiveXfixture
automation feature
NanoScan 2s Si Detector 9mm aperture 25 μm slits. High-resolution head featuring Si detector, 63.5mm
diameter head with rotation mount, 9mm entrance aperture, and matched pair of 25 μm wide slits. Use
from 190nm to wavelengths <1 μm. Not for 1.06 μm wavelength
Software includes ActiveX automation feature
NanoScan 2s Ge Detector 3.5mm aperture 1.8 μm slits. High-resolution head featuring Germanium
detector, 63.5mm diameter head with rotation mount, 3.5mm entrance aperture, and matched pair of
1.8 μm wide slits. Use from 700nm to 1.8 μm wavelength
Software includes ActiveX automation feature
NanoScan 2s Ge Detector 9mm Aperture 5 μm slits. High-resolution head featuring Germanium detector,
63.5mm diameter head with rotation mount, 9mm entrance aperture, and matched pair of 5 μm wide
slits. Use from 700nm to 1.8 μm wavelength
Software includes ActiveX automation feature
NanoScan 2s Ge Detector 9mm Aperture 25 μm slits. High-resolution head featuring Germanium
detector, 63.5mm diameter head with rotation mount, 9mm entrance aperture, and matched pair of
25 μm wide slits. Use from 700nm to 1.8 μm wavelength
Software includes ActiveX automation feature
NanoScan 2s Pyro Detector 9mm Aperture 5.0 μm slits. High-resolution head featuring pyroelectric
detector, 63.5mm diameter head with rotation mount, 9mm entrance aperture, and matched pair of
5 μm wide slits. Use from 190nm to >100 μm wavelength
Software includes ActiveX automation feature
NanoScan 2s Pyro Detector 9mm Aperture 25.0 μm slits. High-resolution head featuring pyroelectric
detector, 63.5mm diameter head with rotation mount, 9mm entrance aperture, and matched pair of
5 μm wide slits. Use from 190nm to >100 μm wavelength
Software includes ActiveX automation feature
PH00421
PH00431
M2
NS2s-Pyro/9/25-PRO
NS2s-PYRO/9/25-STD
PH00430
P/N
G
Beamprofilers
NS2s-Ge/9/5-PRO
NS2s-Ge/3.5/1.8-STD
PH00429
Light Analysis : Energy & Spectrum
Power /
Energy Meters
NS2s-SI/3.5/1.8-STD
NS2s-Si/9/25-PRO
NanoScan 2s Silicon Detector 3.5mm aperture 1.8 μm slits. High-resolution head featuring Silicon
detector, 63.5mm diameter head with rotation mount, 3.5mm entrance aperture, and matched pair of
1.8 μm wide slits. Use from 190nm to wavelengths <1 μm. Not for 1.06 μm wavelength
Software includes ActiveX automation feature
NanoScan 2s Si Detector 9mm aperture 5 μm slits. High-resolution head featuring Si detector, 63.5mm
diameter head with rotation mount, 9mm entrance aperture, and matched pair of 5 μm wide slits. Use
from 190nm to wavelengths <1 μm. Not for 1.06 μm wavelength
Description
Software includes ActiveX automation feature
NanoScan 2s Si
Detector
9mm3.5mm
apertureaperture
25 μm1.8
slits.
head featuring
Si detector,
63.5mm
Silicon
Detector
μmHigh-resolution
slits. High-resolution
head featuring
Silicon
detector,
with
rotation
mount,
3.5mmand
entrance
aperture,
matched
diameter 63.5mm
head withdiameter
rotation head
mount,
9mm
entrance
aperture,
matched
pair ofand
25 μm
wide pair
slits.ofUse
1.8 μm
widetoslits.
Use from <1
190nm
μm. Not for 1.06 μm wavelength
μm. to
Notwavelengths
for 1.06 μm<1wavelength
from
190nm
wavelengths
Software includes
ActiveX9mm
automation
NanoScan
2s Si Detector
aperturefeature
5 μm slits. High-resolution head featuring Si detector, 63.5mm
NanoScan
2s Ge
Detector
1.8 μm aperture,
slits. High-resolution
featuring
Germanium
slits. Use
diameter head
with
rotation3.5mm
mount,aperture
9mm entrance
and matchedhead
pair of
5 μm wide
detector,
63.5mm
diameter head
withNot
rotation
mount,
entrance aperture, and matched pair of
for 1.06
μm 3.5mm
wavelength
from 190nm
to wavelengths
<1 μm.
1.8 μm wide
Use from
700nm
to 1.8
NanoScan
2s slits.
Si Detector
9mm
aperture
25 μm wavelength
slits. High-resolution head featuring Si detector, 63.5mm
Software head
includes
feature
diameter
withActiveX
rotationautomation
mount, 9mm
entrance aperture, and matched pair of 25 μm wide slits. Use
NanoScan
2stoGewavelengths
Detector 9mm
Aperture
5 μm
slits.
head featuring Germanium detector,
from 190nm
<1 μm.
Not for
1.06
μmHigh-resolution
wavelength
63.5mm diameter
head with
rotation
mount,1.89mm
aperture, and head
matched
pair of
5 μm wide
NanoScan
2s Ge Detector
3.5mm
aperture
μm entrance
slits. High-resolution
featuring
Germanium
μmwith
wavelength
slits.
Use63.5mm
from 700nm
to 1.8
detector,
diameter
head
rotation mount, 3.5mm entrance aperture, and matched pair of
Software
includes
automation
1.8 μm wide
slits.ActiveX
Use from
700nm tofeature
1.8 μm wavelength
NanoScan 2s Ge Detector 9mm Aperture 25
μmslits.
slits.High-resolution
High-resolutionhead
headfeaturing
featuringGermanium
Germaniumdetector,
5 μm
detector,
63.5mm head
diameter
withmount,
rotation9mm
mount,
9mm aperture,
entrance aperture,
and pair
matched
of
μm wide
63.5mm diameter
withhead
rotation
entrance
and matched
of 5 pair
25 μm
wide
slits.
Use to
from
700nm
to 1.8 μm wavelength
slits.
Use
from
700nm
1.8μ
m wavelength
Software
ActiveX 9mm
automation
feature
NanoScanincludes
2s Ge Detector
Aperture
25 μm slits. High-resolution head featuring Germanium
NanoScan
2s Pyrodiameter
Detectorhead
9mmwith
Aperture
5.0mount,
μm slits.
High-resolution
head and
featuring
pyroelectric
detector, 63.5mm
rotation
9mm
entrance aperture,
matched
pair of
detector,
63.5mm
withtorotation
9mm entrance aperture, and matched pair of
25 μm wide
slits. diameter
Use fromhead
700nm
1.8 μmmount,
wavelength
5 μm wide2sslits.
from 190nm
to >100 5.0
μm μm
wavelength
NanoScan
PyroUse
Detector
9mm Aperture
slits. High-resolution head featuring pyroelectric
Software
includes diameter
ActiveX automation
feature mount, 9mm entrance aperture, and matched pair of
detector, 63.5mm
head with rotation
NanoScan
PyroUse
Detector
9mm Aperture
μm slits. High-resolution head featuring pyroelectric
5 μm wide2sslits.
from 190nm
to >100 25.0
μm wavelength
detector, 63.5mm
rotation
9mmHigh-resolution
entrance aperture,
matched
pair of
NanoScan
2s Pyrodiameter
Detectorhead
9mmwith
Aperture
25.0mount,
μm slits.
headand
featuring
pyroelectric
μm wide
slits.
Use
from
190nm
to
>100
μm
wavelength
5detector,
63.5mm diameter head with rotation mount, 9mm entrance aperture, and matched pair of
Software
includes
ActiveX
feature
5 μm wide
slits. Use
fromautomation
190nm to >100
μm wavelength
PH00436
Software Upgrades
NSv2 STD to NSv2 PRO
Upgrade
Accessories
RAL-FXT
COL-FXT 250
COL-FXT 500
Upgrade NanoScan v2 Standard version software to the PRO version. This upgrade opens the NanoScan
automation feature for those users wanting to integrate or develop their own interface using Visual Basic
for Applications to embed into such applications as LabView. Return scanhead to factory
Rayleigh fixture for manual M2
250 mm FL collimation fixture
500 mm FL collimation fixture
PH00417
PH00073
PH00070
PH00227
http://www.unice-eo.com Email : [email protected]
476
Spectrometers
M2
Beamprofilers
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
Beam Watch
BeamWatch® Non-Contact, Focus Spot Size and Position Monitor for High Power YAG, Diode and Fiber Lasers
* Instantly measure focus spot size
* Dynamically measure focal plane location during start-up
* From 1kW and up – no upper limit (So far we have measured up to 100kW)
* Non-contact, laser beam is completely pass-through
* Automation Control Interface for System Integration
* GigE camera interface for local network installation
* Patent
BeamWatch utilizes disruptive technology for very high power lasers. By
not intercepting the beam yet providing instantaneous measurements,
you can now monitor the beam at frequent intervals without having to
shut down the process or remove tooling and fixtures to get access.
In addition, you can now measure focal spot location several times per
second and know if there is any focal spot shift during those critical
start-up moments.
Disruptive Technology
BeamWatch is the first device to measure a laser without coming in contact with its beam which allows it to be the first
laser quality measurement product in history to have no upper limit on the lasers which it can measure. BeamWatch
provides high-power industrial laser users with data never before seen such as the dynamic measurement of focus shift
caused by thermal effects on the laser system. BeamWatch also provides the industrial laser user with measurement of
other key laser operating parameters in real-time.
The system measures the signal generated from Rayleigh scattering around the laser’s beam waist, where the power density
is the highest. Rayleigh scattering is a physical property of light caused by light scattering off of air molecules. Unlike
traditional beam measurement systems, the beam passes directly through BeamWatch and is not disrupted, mechanically
or optically. In addition, BeamWatch has no moving parts so there is no need for cooling of any components. Specialized
system software dynamically measures the signal multiple times per second, allowing the laser user to key in on critical
operational laser attributes, such as beam waist size and position with respect to the material being processed.
* Technician Mode: The technician has access to those tools needed for start-up and advanced beam diagnostics.
Accessories
Light Meters
BeamWatch Technician User Interface
Technician mode for dual axis set-up and beam diagnostics
477
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
Focus Spot Size
Power /
Energy Meters
BeamWatch images the full beam caustic measuring the waist at its
smallest point, many times per second.
G
Focus Spot Location
Now you can precisely know the dynamic behavior of focal spot shift
throughout the laser duty cycle. By inputting the known distance from
the laser delivery head to a precise datum on BeamWatch the focal spot
distance is constantly measured and tracked with millisecond updates.
Measure as often as needed to assure repeatable and consistent process uniformity. Mount BeamWatch into the process or manually
insert BeamWatch and make periodic measurements. You can also automatically compare to initial process validation measurements and
utilize automated pass/fail.
Automation Interface
Beamprofilers
Assured Process Consistency
BeamWatch includes the tools to support Automation Clients written in Visual Basic for Applications (VBA), C++ CLI, or any .Net
compliant environment, such as Microsoft Excel or National Instruments’ LabVIEW.
M2
Spectrometers
Model
BeamWatch
980-1080nm
2 Megawatts/cm2
155 microns
55 microns
155 microns
55 microns
12.5mm
GigE Ethernet
110 – 220 Volts AC
Clean Dry Gas, approximately 10 LPM
Accessories
Wavelength
Minimum Power Density
Minimum Spot Size
SP90335
Single axis
SP90389
Single axis
SP90390
Dual axis
SP90391
Dual axis
Maximum Beam diameter at entrance/exit
Communication to PC
Power
Particulate Purge
Accuracy
Waist Width (Spot Size)
Waist Location
Focal Shift
Beam Parameter Product
Divergence
M²
Specification subject to change
Light Meters
Example using dual axis technician screen
Specifications
±5%
±125 micrometers within the BeamWatch window
±50 microns
±3.5% RMS
±3.5% RMS
±3.5% RMS
http://www.unice-eo.com Email : [email protected]
478
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
Operating Space Charts
The plots are intended to give a visual indication of the recommended operating space for BeamWatch. If BeamWatch
is operated outside of this space, it may be more difficult to see the curvature of the caustic or the beam may be large
enough at the edges of the image that it is out of focus. The maximum waist is dependent on the power density and M2
of the beam. Specified is a minimum power density of 2 megawatts/cm2 and the M2 vs waist width is shown in the cornlooking graphs. Following these charts also covers the 12.5mm max beam size as it enters and exits the unit.
* O ptimal has at least 3 Rayleigh lengths on both sides of the waist, with the waist at the center of the image
* N ear Optimal has at least 3 Rayleigh lengths on 1 side of the waist, with the waist at the end of the image
* A cceptable has at least 1.5 Rayleigh lengths on both sides of the waist, with the waist at the center of the image
Spectrometers
M2
Beamprofilers
The 12.5mm maximum beam size at entrance and exit is the physical clear aperture of unit, and is the same for all models.
Ordering Information
Light Meters
Item
BW-NIR-1-155
BW-NIR-1-55
BW-NIR-2-155
Accessories
BW-NIR-2-155
479
Suggested Add-Ons
Rotation Mount
Locking Ethernet Cable
5000W-BB-50
10K-W-BB-43
30K-W-BB-74
120K-W
Juno
Vega
Description
Single axis - BeamWatch non-contact, focus spot size and position monitor for focus spots from 155ȫm
and larger (see operating space charts)
larger (see operating space charts)
Single axis - BeamWatch non-contact, focus spot size and position monitor for focus spots from 55ȫm and
larger (see operating space charts)
Dual axis - BeamWatch non-contact, focus spot size and position monitor for focus spots from 155ȫm and
larger (see operating space charts)
Dual axis - BeamWatch non-contact, focus spot size and position monitor for focus spots from 55ȫm and
larger (see operating space charts)
Add-on 180° manual rotation mount to bottom of BeamWatch
Replace standard Ethernet cable with one that locks into place, IP67 rated
5kW water cooled power sensor
10kW water cooled power sensor
30kW water cooled power sensor
100kW water circulated power sensor for laser with an approximately Gaussian beam and fiber output
Compact module to operate one Ophir sensor from your PC USB port
Hand held color universal power meter
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
P/N
SP90335
SP90389
SP90390
SP90391
SP90346
SP90394
7Z02754
7Z02756
7Z02757
7702691
7Z01250
7Z01560
Light Analysis : Energy & Spectrum
ModeCheck
Laser Beam In
Beamprofilers
* Beam Profiler for collimated CO2, 10.6um wavelength, beam
width up to 30mm.
* Quality Cutting, Marking, Drilling & Ablating Require More
Than Consistent Laser Power
* Instantaneously “see” and measure the beam - reduce set-up
time between jobs
* Real-time “mode burns” - eliminate hazardous acrylic vapors
* Optimize laser efficiency - reduce cost per part
* Predict laser preventative maintenance - increase
manufacturing efficiency
Power /
Energy Meters
®
High Power - ModeCheck - A New Method to Assure the Performance of High Power CO2 Lasers
G
Pass-Through Beam Out
M2
ModeCheck is designed for the industrial parts manufacturer to reduce the time it takes to change over between different jobs.
The user can quickly place the ModeCheck in front of the laser and see and measure, in real-time, the laser beam profile to
confirm optimal laser performance. In addition, and when used periodically, the user can compare measurement changes from
the same set-up and make necessary laser adjustments, keeping the laser output constant for the same job from day-to-day. Over
time the user will be able to see and measure aser degradation to predict and advance schedule downtime needed for periodic
maintenance.
ModeCheck eliminates operator exposure to acrylic mode burn hazards while improving product quality and manufacturing efficiency.
Spectrometers
Light Meters
It's just this easy.
In addition to both 2D and 3D graphical image display and save,
the following measurements are made from each image:
* Beam Widths and Diameters
* Beam Position Stability
* Power Density Peak
* Beam Centroid Location
* Elliptical Analysis with Major Axis Orientation
1. Remove Focusing optic or attach the optional MLA
2. Locate the beam center with pointing beam or
similar device
3. Place ModeCheck in beam center
4. Turn on Laser
5. Instantly see, measure and electronically store the beam characteristics
http://www.unice-eo.com Email : [email protected]
Accessories
Measurements:
480
Beamprofilers
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
Optional Accessories
One must manage the pass-through laser beam by
collecting the beam using either a power meter or
beam dump. We recommend using a power meter
as the additional measurement information will assist
in managing laser optimization. Note that any beam
dump or power meter large enough to handle 5-10kW
will require water cooling. There are holes on the
bottom of ModeCheck for mounting the Power Meter
Head or Beam Dump.
A ruggedized storage/carrying case is highly
recommended for safe and efficient handling.
Spectrometers
M2
ModeCheck makes instantaneous beam measurements along with
graphically displaying both the 2D and 3D power density distribution
The ModeCheck Lens Adapter (MLA) is an option
that will enable a ModeCheck to recollimate a focused
CO2 laser beam. The advantage of using this adapter
is that the focusing head of the machine does not
have to be removed, which is the normal case for a
ModeCheck without this adapter.
The disadvantage is that the ModeCheck must be
positioned further from the output head in order to
properly recreate the collimated beam profile. The
recollimating lens must be supplied by the user and
must be the same lens that is used on the lasers
cutting head. (See application note: SP90329).
A PC is required to run the ModeCheck imaging
software. The camera is powered over the USB cable
that connects the computer to ModeCheck.
ModeCheck with optional MLA, profiling a CO2 cutting laser with its
processing head installed
Accessories
Light Meters
Specifications
Model
Laser Input Power
Input Clear Aperture
Laser Type
Beam Width
Pick-off Percent
Damage Threshold
Camera
Lens
Cooling
UV Light Source
Software
Power Requirements
Dimensions
Weight
Beam Dump (optional)
Power Meter (optional)
Laptop Computer
Compliance
481
ModeCheck
100 - 5000 Watts (or more depending on Beam size)
50mm (~2")
CW, Pulsed >100 KHz
5mm - 30mm
0.5%, 1%, 2%, 4%, 10% sampling wands; user replaceable
27 - 36 W/cm2; See graph
1/3" format CMOS, 480x480, 6μm pixel, 8bit, CS-mount, USB2
12mm C-mount
Built in Fan (water required for the optional beam dump or optional power meter sensor)
LED array
ModeCheck
Input: 100 - 240 Vac, 50 - 60Hz, 1.5A
Output: 12Vdc, 5.0A, w/power jack, UL listed and CE compliant universal power supply
included Camera is powered over the USB port
9.5" x 13" x 6.7"
242mm x 330mm x 171mm
Not including handle and cabling or any options
~8 lbs
3.6kg
Water cooled and rated for 5kW total power
5000W-SH; up to 5kW total power
10kW-SH-V2; up to 10kW total power
Provided by user; Windows 7 (32/64)
Unit meets CE and RoHS requirements
The optional rugged case is
recommended for safe storage
in an industrial facility
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
G
Power /
Energy Meters
Beamprofilers
M2
Safe Operation is to the Right of the Solid line. Image Saturation is approximately the Dashed line. Chose a sampling Wand
that contains your beams maximum power and minimum diameter to be near but below the dashed line for safe and best beam
viewing
Item
MODECHECK CO2 - 5kW
SP90211
SP90324
SP90325
SP90326
SP90327
SP90283
SP90224
7Z02119
SP90212
7Z02645
SP90213
SP90227
SP90329
http://www.unice-eo.com Email : [email protected]
Accessories
Collimating 2" Lens Adapter
ModeCheck, CO2 sampler for 10.6μm beams up to 5kW, beam width up to 30mm; includes 2 user
selectable wands from selection below
0.5% beam wand sampler, see damage and saturation chart
1% beam wand sampler, see damage and saturation chart
2% beam wand sampler, see damage and saturation chart
4% beam wand sampler, see damage and saturation chart
10% beam wand sampler, see damage and saturation chart
Beam dump for up to 5kW continuous, includes mounting bracket, requires continuous water flow.
Power sensor, measure CO2 power up to 5000W; water cooling needed
Mounting hardware for 5kW power sensor. Required when ordering the 5000W-SH sensor
Power sensor, measure CO2 power up to 10,000W; water cooling needed
Mounting hardware for 10KW power sensor. Required when ordering the 10kW-SH-V2 sensor
Ruggedized ModeCheck storage/carrying case
ModeCheck Lens Adapter (MLA) enables a ModeCheck to recollimate a focused CO2 laser beam.
MLA should be ordered with the ModeCheck so that it can be factory installed.
P/N
Light Meters
0.5% wand
1% wand
2% wand
4% wand
10% wand
Beam Dump; 5kW
5000W-SH
Mounting Hardware, 5000W detector
10kW-SH-V2
Mounting Hardware, 10,000W detector
ModeCheck storage/carrying case
Description
Spectrometers
Ordering Information
482
Beamprofilers
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
M2
What is M2 ?
M2, or Beam Propagation Ratio, is a value that indicates how
close a laser is to being a single mode TEM00 beam, which in
turn determines how small a beam waist can be focused. For the
perfect Gaussian TEM00 condition the M2 equals 1.
For a laser beam propagating through space, the equation for the
divergence, θ, of an unfocused beam is given by:
θ0 = M24λ/πD0
For a pure Gaussian TEM00 beam M2 equals 1, and thus has no impacton the calculation. The calculation of the minimal
beam spot is then
M2
d0 = 4λ/πθ
Again with M2 equal to 1, the focused spot is diffraction limited. For real beams, M2will be greater than 1, and thus the
minimum beam waist will be larger by the M2 factor
M2 cannot be determined from a single beam profile measurement. The ISO/DIS 11146 requires that M2 be calculated
from a series of measurements as shown in the figure above. M2 is measured on real beams by focusing the beam with a
fixed position lens of known focal length, and then measuring the characteristics of the artificially created beam waist and
divergence.
To provide an accurate calculation of M2, it is essential to make at least 5 measurements in the focused beam waist region,
and at least 5 measurements in the far field, two Rayleigh ranges away from the waist area. The multiple measurements
ensure that the minimum beam width is found. In addition, the multiple measurements enable a “curve fit” that improves
the accuracy of the calculation by minimizing measurement error at any single point. An accurate calculation of M2 is made
by using the data from the multiple beam width measurements at known distances from a lens, coupled with the known
characteristics of the focusing lens.
M2 Measurement Solutions
Ophir-Spiricon and Photon have a number of solutions for the measurement of M2 ranging from simple manual processes to
fully automated dedicated instruments, depending on the frequency of the need to measure M2 of lasers and laser systems.
We have a system that will meet most needs, whether for research and development of new laser systems, manufacturing
quality assurance, or maintenance and service of existing systems.
Accessories
Light Meters
Spectrometers
How is M2 measured?
483
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
M2 - 200s
Not all commercial M 2 measuring instruments conform to
the ISO 11146 method of employing a fixed position lens
and moving detector. Instead, some manufacturers use
a fixed position detector and a moving lens. If the laser
beam is diverging or converging within the travel range of
a moving lens, the reported M2 value and other results can
be significantly compromised. Spiricon's M 2-200s Beam
Propagation Analyzer is fully ISO 11146 compliant.
Beamprofilers
* Automatically measure your beam quality in under 2 minutes
* Tune your laser for best operation
* ISO compliant
* Specifically developed for continuous usage
* Unequaled accuracy using patented UltracalTM Calibration
* Automatic attenuation adjustment
* Pulsed and CW for most beam diameters and powers
* Compact and portable
Power /
Energy Meters
Camera Based Beam Propagation Analyzer: M2
G
M2
Automatic M2 - at Production Speeds
Spectrometers
The M2-200s optical train uses a fixed position lens and camera. The mirrors that direct the focused beam into the
camera are moved to precise locations, translating the beam through both the waist region and the far field regions. All
these measurements and translations, as well as incremental beam attenuation, are automatically controlled by the M2200s software. Software improvements in the M2-200s, including more efficient algorithm execution, has decreased the
measurement reporting time by 2-3 times, making it possible to report M2 in under two minutes.
Light Meters
Accessories
http://www.unice-eo.com Email : [email protected]
484
Manual M2
Manual mode is available for beams that are too large or too small or at wavelengths outside the standard optical train
Beamprofilers
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
M2
Accuracy by Design
Spiricon products are known for accuracy. Using our patented UltracalTM calibration method and auto aperturing to exclude
noise beyond the wings of the laser beam, assures the user of the most accurate measurements in the industry.
Spectrometers
Designed by Our Customers
Spiricon has redesigned the M2-200, the world's top selling beam propagation system to include customer input, increased
attention to durability, and operational robustness for continuous use applications - three shifts a day, seven days a week.
Novice and seasoned users will appreciate these new features along with the time-tested excellence that the Spiricon M2-200
measurement system has provided overthe years.
Accessories
Light Meters
Main Screen Functions
485
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
Specifications for the M2-200s
±5% typical, ±12% waist location and Rayleigh length typical (Note: Accuracy can be degraded by a
variety of situations)
2-3 minutes typical, depending on setup conditions and operating mode
Std C-mount, 90° camera on axis rotation
Step motor-driven lead screw
4 mm/rev optical pitch
1.8° (200 steps/rev)
190 - 600 mm, typical
Accuracy
1/1.8" CCD, 1928 x 1448 pixels
12 bit A to D
26 FPS (at full resolution)
3.69μm x 3.69μm
0 to 24 dB
Programmable from 110μs to 70ms
56dB at min gain
Edge sensitive 3.3 / 5Vdc LVTTL / TTL (positive or negative, user programmable)Minimum pulse width
10us. External Trigger cable provided
3.3Vdc LVTTL, Programmable
Powered through USB 3.0, USB 2.0
<3.5watts
Trigger Input
Spectrometers
Light Meters
Accessories
2
0.15 μW/cm CW mode for a 10 mm input beam diameter
2
1.0 μJ/cm pulse mode for a 10 mm input beam diameter
Both of the above for an M2=1 @ 1064nm
2
2
2
1
CCD cameras can be damaged by power in excess of 0.1 mW/cm or energy in excess of 1 mJ/cm . The M -200s employs a focusing optic.
While it may be that the laser input power or energy measures well below this damage threshold, it can easily exceed these levels when focused onto the camera sensor.
Use caution and error on the side of safety. CCD cameras can be costly to repair or replace.
Camera
M2
Trigger Out
Voltage Requirement
Power Consumption
Environmental
Storage Temperature
-30°C to 65°C
Storage Humidity
95% maximum (non-condensing)
Operating Temperature
10°C to 40°C
Operating Humidity
95% maximum (non-condensing)
Power Requirements*
Line Voltage
95V AC to 250V AC
Line Frequency
47Hz to 63Hz
Maximum Power
4.5 Watts
* For the Optical Train only. The PC computer supplies the power for the system components, such as the CCD camera. An external power supply is
forrequired for Laptop computer use.
Physical
Weight
15lbs, 6.8 kg (without camera)
Measurements
M2x, M2y, Kx, Ky, BPPx, BPPy
Statistical results
Width at waist Wx, Wy
are available on
Divergence angle qx, qy
Waist location Zx, Zy
Rayleigh X, Y
all measurements
Astigmatism
Asymmetry ratio
Wavelength Range
Different lenses are needed for different wavelength regions
2
The M -200s model include 3 standard lenses with nominal 300mm focal lengths. See below
266 - 587nm (included)
400 - 750nm (included)
M2-200s-USB
650 - 1125nm (included)
1000 - 1300nm (optional)
Attenuation Range Nominally from ND 0 to ND 4.8. Actual values vary with wavelength
0.5mm - 10mm
Beam Size
2
Varies with wavelength, waist size and location, and M
1
Damage Limits
Beamprofilers
Measurement Cycle Time
Camera Attachment
Translation System
Translation Pitch
Step Angle
Sample Range
Camera Specifications (for SP300 camera)
Imager
Dynamic Range
Frame Rates
Pixel size
Gain
Shutter Control
S/N Ratio
Power /
Energy Meters
General
G
Ordering Information
Item
M 2-200s-USB
M 2-200s-USB-A
M 2-200sM-USB
Accessories
1000 - 1300nm
Description
P/N
M -200s software, software license, SP300 USB 3.0 camera, short optical train, automatic
and manual operation, recommended for 266nm - 1300nm wavelengths.
M2 -200 software, software license, short optical train, automatic and manual operation,
recommended for 266nm - 1064nm wavelengths (SP300 camera not included)
Manual mode M2-200s software, software license, SP300 USB 3.0 camera, manual operation
with a SP300 camera (optical train not included)
SP90144
2
Lens assy telecom, 300mn fl
SP90145
SP90146
11402-001
http://www.unice-eo.com Email : [email protected]
486
M2
Beamprofilers
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
Instantly measure M2 Model 1780
The ModeScan Model 1780 is a laser beam profiling instrument that measures the M2 Beam
Propagation Ratio and all associated ISO 11146 parameters instantaneously in real time at video
rates to over 20Hz. The measurement technique, patented by Photon Inc., uses 10 reflective
surfaces to form simultaneous images of the propagating beam at 10 locations on a Model 2512
CCD array camera. With all ten measurement positions acquired at once, the instrument is suitable
for measurement of both CW and pulsed lasers down to single-shot rates. Beam diameters are
obtained with NIST-traceable accuracy to better than 2% using the BeamPro. This translates to
M2 measurements with accuracy to ~5%. The FireWire system operates under Photon’s BeamPro
in Microsoft Windows. The compactness of the system and the IEEE 1394a FireWire interface
offers enhanced ease-of-use and portability. The ability to operate in any orientation allows for easy
placement on any optical bench and saves valuable bench space.
The CCD is sensitive from ~250nm to 1100nm wavelengths. The standard configuration is supplied with a glass OD 2.8 C-mount
neutral density filter for wavelengths >360nm, and an OD 3.0 Fused Silica Inconel neutral density filter for wavelengths <360nm.
Because of the limited usefulness of exposure control with pulsed lasers, the Photon Inc. Model ATP is recommended for use with
pulsed lasers with repetition rate <~10kHz and wavelength >360nm. For pulsed lasers with wavelength <360nm, a variable UV
filter or a combination of UV filters will generally be required.
ModeScan Model 1780 System Specifications
Optical/Sensor/Detector
Sensor
Accessories
Light Meters
Spectrometers
Wavelength
487
ModeScan 1780
Pixel Array
Pixel Size
Array Dimension
Scanning Mode
CCD Cover Glass
Beam Splitters
Test Lenses
UV: ~250 – 460nm
Visible: 425 – 720nm
VIS – NIR: 620 – 1080n
Fixed Attenuator: Visible – NIR
UV
Computer/Electrical
A / D Conversion
Maximum Frame Rate
Exposure range
Gain
Trigger
External Trigger Specifications
Trigger Connector
Trigger Cable
Interface
IEEE 1394 Cabl
Supply Voltage
Supply Power
Mechanical
Filter/Lens Mount
Mounting
Dimensions in mm
Weight
Environmental
Operating Temperature
Humidity
Conformity
Si CCD 1/2" Format
~360nm – 1100nm (Standard with OD 2.8 filter)
~250nm – 1100nm with UV optics
780 (H) × 580 (V)
8.3μm × 8.3μm
6.49mm × 4.83mm
Progressive
Removed
Fused Silica: <20/10 Scratch Dig, l/10 Flatness
200mm fl Fused Silica/250 – 460nm AR coated standard
200mm fl BK7/425 – 720nm AR coated standard
200mm fl BK7/620 – 1080nm AR coated standard
OD 2.8 Absorbing Glass >360nm
OD 3.0 Fused Silica Inconel 250 – 450nm
12 Bit
35.8fps (full frame @ full resolution)
20μs–27.64ms (Software selectable via 1394 bus)
0–12dB (Software selectable via 1394 bus)
Internal or External (Software selectable)
5V ±1V @ 10mA ±5mA (Positive transition)
10 pin RJ-45 Jack
10 pin RJ-45 to BNC 1.8m
IEEE 1394a (FireWire)
1.8m
+8V – +36V DC (+12V DC nominal), <1% ripple (supplied via IEEE 1394 cable); requires
externalpowered hub with laptop PCs
3.5W max @ 12V DC (typical)
C-mount (1" – 32 tpi)
Gimbal Mount on ." post; 12mm Metric post optional
62 H × 140 W × 210 L , + Gimbal Mount
~1.4kg
O° – +50°C (+32° – 112F)
20% – 80%, relative, non-condensing
CE; FCC; RoHS and WEEE
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
G
Power /
Energy Meters
Ordering Information
Item
Description
P/N
PH00096
M2
PH00097
PH00098
PH00099
PH00100
PH00101
PH00102
PH00103
Spectrometers
PH00104
PH00105
PH00106
PH00107
PH00108
PH00109
PH00110
Light Meters
PH00111
PH00112
PH00113
PH00114
PH00115
PH00116
PH00117
Accessories
ModeScan 1780 M2 System with Fire Wire BeamPro
ModeScan Model 1780, dedicated M 2 measurement system, with 12-bit FireWire (IEEE 1394a) CCD
detector for single-shot, pulsed and CW lasers. System includes: ModeScan with gimbaled mount for
alignment; FireWire CCD camera; Photon FireWire BeamPro Acquisition and Analysis Software
standalone GUI with M 2 Analysis; Active X automation interface; 200mm lens coated for Visible range
MS-1780
(400– 700nm); OD 2.8 glass filter for operation >360nm; Dimensions: 62mm x 140mm x 210mm; For
use from 250–1100nm wavelengths - UV and NIR operation will require additional specifically coated
optics.
ModeScan 1780 Accessories
UV lenses are all fused silica plano-convex and coated for UV wavelengths 250-400nm All lens kits
UV Lens Kit (MS-UV kit)
contain 200mm, 250mm, 400mm, 500mm, 750mm and 1m focal length coated lens with mounting
hardware and MS-Tube Kit.
UV200
200mm focal length lens
UV250
250mm focal length lens
UV350
350mm focal length lens
UV500
500mm focal length lens
UV750
750mm focal length lens
UV1000
1000mm focal length lens
Visible (VIS) lenses are all BK 7 plano-convex and coated for visible wavelengths 450–650nm All lens
MS-VIS Lens Kit (MS-VIS kit) kits contain 200mm, 250mm, 400mm, 500mm, 750mm and 1m focal length coated lens with mounting
hardware and MS-Tube Kit.
VIS200
200mm focal length lens
VIS250
250mm focal length lens
VIS400
400mm focal length lens
VIS500
500mm focal length lens
VIS750
750mm focal length lens
VIS1000
1000mm focal length lens
NIR lenses are all BK-7 Plano-convex and coated for NIR wavelengths 700-1100nm All lens kits
MS-NIR Lens Kit (MS-NIR kit) contain 200mm, 250mm, 400mm, 500mm, 750mm and 1m focal length coated lens with mounting
hardware and MS-Tube Kit.
NIR200
200mm focal length lens
NIR250
250mm focal length lens
NIR400
400mm focal length lens
NIR500
500mm focal length lens
NIR750
750mm focal length lens
NIR1000
1000mm focal length lens
Extension and Focusing Tubes
CM-EXT100
100mm long C-Mount extension tube for mounting lenses outside ModeScan 1780 Box
CM-EXT50
50mm long C-Mount extension tube for mounting lenses outside ModeScan 1780 Box
CM-EXT40
40mm long C-Mount extension tube for mounting lenses outside ModeScan 1780 Box
CM-EXT25
25mm long C-Mount extension tube for mounting lenses outside ModeScan 1780 Box
CM-EXT10
10mm long C-Mount extension tube for mounting lenses outside ModeScan 1780 Box
C-Mount fine thread focus tube with 20–30mm adjustable length for focus of lenses mounted to
FOCTUBE20-30
extension tubes
C-Mount fine thread focus tube with 30–50mm adjustable length for focus of lenses mounted to
FOCTUBE30-50
extension tubes
C-Mount fine thread focus tube with 50–90mm adjustable length for focus of lenses mounted to
FOCTUBE50-90
extension tubes
MS-TUBE Kit
Tube Kit for MS-1780
Beamprofilers
Arrangement of Measurement Windows: VideoWindow Beam Propagation Mode;
Beam Statistics Window; Horizontal and Vertical Caustics Window
PH00119
PH00120
PH00121
PH00122
PH00123
PH00124
PH00125
PH00126
PH00127
http://www.unice-eo.com Email : [email protected]
488
M2
Beamprofilers
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
NanoModeScan
Slit - Based Beam Propagation Analyzer M2
The NanoModeScan combines the flexibility and speed of the NanoScan with dedicated M2 measurement hardware and
software. The NanoModeScan provides an automated measurement of M2 using either the ISO 11146 or the Rayleigh method.
The ISO Method software and hardware report the ISO 11146 parameters:
* Times diffraction limit: M2
* Beam propagation factor: K
* Beam waist size: d0
* Beam waist location: Z0
* Divergence: θ
* Rayleigh range: Zr
NanoModeScan
By adding the capabilities of the NanoScan to the ModeScan, the range of possible measurable lasers is greatly expanded
and the speed of the measurements dramatically improved. The NanoScan’s software controlled variable scan speed allows
the measurement of both CW and kHz pulsed lasers with any NanoScan scan head, covering the entire wavelength range
from UV to FIR. The NanoScan’s rapid beam finding and autoranging speed up the total M2 measurement to ~20 seconds
for CW lasers. Both 200mm and 400mm lenses are available to generate the proper artificial waist for the laser source under
test. For ease of alignment, there is an entrance iris on the optical axis of the NanoModeScan and a precision alignment
stage for horizontal and vertical positioning.
Spectrometers
The ISO 11146 Method
The ISO 11146 method for measuring the propagation of a laser source calls for the measurement of the beam diameter
for at least 10 positions through the waist created by a test lens inserted in the beam path. Five locations should be within
±1 Rayleigh range of the artificial waist and at least five more points beyond two Rayleigh ranges from this waist. These
measurements are then used to compute the laser propagation parameters. Once points are selected properly, the ISO
Method is the fastest measurement method and best for volume testing of lasers.
Accessories
Light Meters
The Rayleigh Method
The ISO method requires the user to manually select the measurement points, and changing one or two of the selected points can
yield different M2 values. The Rayleigh method is completely automated, selecting its own measurement points based on mapping
the Rayleigh range of the beam waist. This method is fully discussed in Application Note 230, Fast M2(k-factor) Measures with
Photon Beam Profilers. In addition, the Rayleigh method can yield more consistent results for M2 values for lasers that are not
exactly like those for which the ISO standard was written, such as fiber lasers, lensed diode lasers, and VCSELs.
The NanoScan Difference
With the NanoScan-equipped NanoModeScan, all scan heads can measure pulsed beams with repetition frequencies down to
10kHz.Measuring pulsed beams in discussed in the application note Measuring Pulsed Beams with a Slit-Based Profiler. The
silicon and germanium detectors will measure less than a milliwatt of power. The pyroelectric detector-equipped NanoScan
head can analyze higher power lasers at all wavelengths. The increased dynamic range of the NanoScan enhances the signal
to noise ratio of the system and allows a much broader range of laser powers to be analyzed with one instrument setup.
Real-Time Divergence Measurement
By monitoring the divergence angle θ, it is possible to make a measurement that will be directly proportional to M2. This enables
the adjustment of the laser performance in real time at the NanoScan’s rapid update rate (up to 20Hz). To use this feature, the scan
head is moved to a position one geometric focal length from the test lens. Divergence is the beam diameter divided by the focal
length, and the measured divergence is equal to M times the embedded divergence.
Therefore when the beam diameter at this location is minimized, the divergence is at its minimum and the M2 of the laser should
then be optimized. After this real-time adjustment, the full M2 measurement can be done to generate the required parameter
values. This method makes the NanoModeScan an even more valuable tool for the final setup of lasers on the manufacturing
floor by decreasing the time it takes both to adjust the laser system and to make the measurements required for quality control
documentation.
489
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
NanoModeScan Specifications
Power /
Energy Meters
Sensor/Detector
Scan head Travel
Optical Axis Height
500mm
140-170mm
200mm EFL, BK-7 plano-convex, Broadband AR Coated
400mm EFL, BK-7 plano-convex, Broadband AR Coated; UV through long IR lenses available
200mm FL fused silica for UV coated for wavelength of use
350mm FL fused silica for UV coated for wavelength of use
190mm FL IR lens for 10.6μm wavelength
See scan head specifications
Standard Lenses
Optional Lens
Minimum Spot Size
Computer/Electrical
See scan head specifications
Data Logging Data files, ASCII Files
110V, 60Hz standard
220V, 50Hz optional
AC Power
Communication
Beamprofilers
Source Power
File Saving and
RS-232 Interface or USB to RS-232 adapter required
Mechanical
NanoModeScan Linear Stage
Photon Motion Controller
Weight
NanoModeScan Linear Stage
Photon Motion Controller
G
812 x 102 x 78 mm
273 x 89 x 57 mm
8.4kg
1.5kg
M2
Spectrometers
Alignment screen in ModeScan software
Measurement results screen in ModeScan software
Ordering Information - NanoModeScan M Systems
2
Light Meters
All NanoModeScan Systems include (unless otherwise noted):
* High-resolution scanhead with rotation mount.
* Two BK 7 lenses and mounts. Standard are 200 and 400mm focal length.
* Lens coating Choices:
- VIS Visible: 430–700nm (not for use with Germanium detector)
- NIR Near IR: 650–1000nm
- LIR Long IR: 1000–1550nm (not for use with Silicon detector)
Item
Description
Accessories
* VLIR: Very long infrared >1550nm. The two glass lenses will not be included but instead credited toward the very long
wavelength IR lens or lenses that will require an optional charge (for use with NMS-NS2-Pyro/9/5 only).
* OPTIONAL UV: If ultraviolet application, the two glass lenses will not be included; instead we will send one 200 mm focal
length lens coated for wavelength of use.
Be sure to specify XXX wavelength when ordering.
P/N
2
NanoModeScan M Systems
Model 1740 ModeScan with NanoScan 2s Silicon (Si) Detector 9mm aperture 5μm slits Si detector, 63.5mm
NMS-NS2-Si/9/5
diameter head, 9mm entrance aperture, and matched pair of 5.0 μm wide slits. Use from 190 to 1000nm wavelengths. PH00448
Model 1740 ModeScan with NanoScan 2s Germanium (GE) Detector 9mm aperture 5.0μ m slits. Germanium detector,
PH00449
NMS-NS2-GE/9/5
63.5mm diameter head, 9mm entrance aperture, and matched pair of 5.0μm wide slits. Use from 700nm to 1.8μm wavelength.
Model 1740 ModeScan with NanoScan 2s Pyroelectric Detector 9.0mm aperture 5μm slits. Pyroelectric detector, 63.5mm
NMS-NS2-Pyro/9/5
PH00450
diameter head, 9mm entrance aperture, and matched pair of 5μm wide slits.
http://www.unice-eo.com Email : [email protected]
490
Flame Spectrometer
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
High Thermal Stability, Interchangeable Slits
The Next Generation of Miniature Spectrometers
Beamprofilers
The Flame spectrometer is built using industry-leading manufacturing techniques
that help deliver high thermal stability and low unit to unit variation — without
compromising the flexibility and configurability that are the hallmark of Ocean Optics
miniature spectrometers. New features such as interchangeable slits, indicator LEDs
and simple device connectors deliver more freedom and less frustration.
Whether you are an educator looking for an instrument to teach students the basic
principles of spectroscopy, a research lab looking to make a breakthrough, or an
engineer working to integrate a spectrometer into an OEM system, the Flame will
provide you with the performance and features you need to make your UV-Vis
spectroscopy application successful.
Features
Accessories
Light Meters
Spectrometers
M2
* Modular — configurable to your application and needs within the wavelength range
190-1100 nm
* Compatible — works with Ocean Optics light sources, accessories and software
* Easy to use — plug and play via the micro USB connection
* User interchangeable slit — allows you to vary the resolution and throughput of
the spectrometer on demand
* Indicator LEDs — indicator of power and data transfer status at all times
* Compact and lightweight – 89.1 mm x 63.3 mm x 34.4 mm and just 265 g
491
Specifications
FLAME-S
Spectroscopic
Optical resolution
Signal-to-noise ratio
Dark noise
Dynamic range
Integration time
Stray light
Corrected linearity
Electronics
A/D resolution
Power consumption
Inputs/Outputs
Trigger modes
Strobe functions
Gated delay feature
Connectors
Detector
Detector
Detector range
Pixels
Physical
Dimensions
Weight
FLAME-T
~0.1 - 10.0 nm FWHM (configuration dependent)
250:1 (full signal)
300:1 (at full signal)
50 RMS counts
7
1300:1 for a single acquisition, 8.5 x 10 (system)
1 ms – 65 seconds
3.8ms – 10 seconds
<0.05% at 600 nm; <0.10% at 435 nm
>99%
16 bit
250 mA @ 5 VDC
8 x user programmable GPIOs
4 modes
Yes
Yes
USB, high density 40 pin JAE DD4 connector
Sony ILX511B linear silicon CCD array
190 - 1100 nm
2048 pixels
Toshiba TCD1304AP linear silicon CCD array
190 - 1100 nm
3648
88.9 x 63.5 x 31.9 mm (34.4 mm with feet)
265 g
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
USB2000+ Spectrometer
Specifications
Sensitivity
Optical Bench
Design
Focal length
Spectroscopic
Wavelength range
Optical resolution
Signal-to-noise ratio
A/D resolution
Dark noise
Dynamic range
Integration time
Stray light
Corrected linearity
Electronics
Power consumption
Data transfer speed
Inputs/Outputs
Analog channels
Auto nulling
Breakout box compatibility
Trigger modes
Strobe functions
Gated delay feature
Connector
Grating-dependent
~0.3 - 10.0 nm FWHM
250:1 (at full signal)
16 bit
50 RMS counts
8.5 x 102 (system); 1300:1 for a single acquisition
1 ms to 65 seconds (20 seconds typical)
< 0.05% at 600 nm; < 0.10% at 435 nm
> 99%
250 mA @ 5 VDC
Full scans to memory every 1 ms with USB 2.0 or
1.1 port, 300 ms with serial port
Yes, onboard digital user-progammable GPIOs
No
No
No
4 modes
Yes
Yes
22-pin connector
http://www.unice-eo.com Email : [email protected]
Accessories
* Up to 1,000 full spectra/second
* Programmable microcontroller
* Modular design – hundreds of configurations
possible
* Built-to-suit wavelength range and resolution
* Automatically reads the wavelength calibration
coefficients of the spectrometer and configures
operating software
* USB-to-PC interface; no external power requirements
* RoHS and CE compliance
Fiber optic connector
Light Meters
Features
Grating options
XR grating option
Detector collection lens option
OFLV filter options
Other bench filter options
Collimating and focusing mirrors
UV enhanced window
f/4, Symmetrical crossed Czerny-Turner
42 mm input; 68 mm output
5, 10, 25, 50, 100 or 200 μm wide slits or fiber (no
slit)
14 different gratings, UV through Shortwave NIR
Yes
Yes, L2
OFLV - 200 - 850; OFLV - 350 - 1000
Longpass OF-1 filters
Standard or SAG
Yes, UV2 quartz window
SMA 905 to 0.22 numerical aperture single-strand
optical fiber
Spectrometers
This innovative design produces our fastest
spectrometer and provides resolution to 0.35
nm (FWHM). The USB2000+ allows you to
capture and store a full spectrum into memory
up to once per millisecond (nearly 1,000 full
spectra every second) when the spectrometer
is interfaced to a computer via a USB 2.0
port (performance may vary depending
on computer and process loading). The
USB2000+ is perfect for chemical, biochemical
and other applications where fast reactions
need to be monitored.
Entrance aperture
Sony ILX511B linear silicon CCD array
200 -1100 nm
2048 pixels
14 μm x 200 μm
~62,500 electrons
75 photons/count at 400 nm; 41 photons/count at
600 nm
M2
The USB2000+ Spectrometer is a clever
combination of technologies: a powerful 2-MHz
A/D converter, programmable electronics, a
2048-element CCD-array detector and a highspeed USB 2.0 port.
89.1 x 63.3 x 34.4 mm
190 g
Beamprofilers
Physical
Dimensions
Weight
Detector
Detector
Detector range
Pixels
Pixel size
Pixel well depth
Power /
Energy Meters
User-configured for Maximum Flexibility
G
492
USB4000 Spectrometer
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
User-Configured to be Flexible
Specifications
Beamprofilers
Physical
Dimensions
Weight
Detector
Detector
Detector range
Pixels
Pixel size
Pixel well depth
Sensitivity
If you’re looking for an economical, versatile
spectrometer, you’ll find the USB4000 to be an
exceptional solution. This compact, modular
unit packs a 3648-element Toshiba linear CCDarray detector to provide increased signal-tonoise and enhanced electronics for control of
the spectrometer as well as its accessories.
The USB4000 Spectrometer is distinguished by
its enhanced electronics: 16-bit A/D resolution
with auto nulling feature (an enhanced
electrical dark-signal correction); EEPROM
storage of calibration coefficients for simple
spectrometer start-up; 8 programmable GPIO
signals for controlling peripheral devices; and
an electronic shutter – a handy feature to
prevent detector saturation.
Features
* Programmable microcontroller
* Modular design
* Automatically reads wavelength calibration
coefficients of the spectrometer and
configures operating software
* RoHS and CE compliant
Entrance aperture
Grating
OFLV filter
UV enhanced window
Fiber optic connector
Spectroscopic
Wavelength range
Optical resolution
Signal-to-noise ratio
A/D resolution
Dark noise
Integration time
Dynamic range
Stray light
Corrected linearity
Electronics
Power consumption
Data transfer speed
Inputs/Outputs
Breakout box compatible
Trigger modes
Strobe functions
Connector
Toshiba TCD1304AP linear CCD array
200- 1100 nm
3648 pixels
8 μm x 200 μm
100,000 electrons
130 photons/count at 400 nm; 60 photons/count at
600 nm
f/4, Asymmetrical crossed Czerny-Turner
42 mm (input); 68 mm (output)
5, 10, 25, 50, 100 or 200 μm wide slits or fiber (no
slit)
Multiple gratings, UV through Shortwave NIR
OFLV - 200 - 850, OFLV - 350 -1000
Yes, UV4 quartz window
SMA 905 to 0.22 numerical aperture single-strand
optical fiber
Grating dependent
~0.1-10 nm FWHM
300:1 (at full signal)
16 bit
50 RMS counts
3.8 ms - 10 seconds
3.4 x 106 (system), 1300:1 for a single acquisition
< 0.05% at 600 nm; < 0.10% at 435 nm
> 99%
250 mA @ 5 VDC
Full spectrum to memory every 5 ms with USB 2.0
port
Yes, 8 onboard digital user-programmable GPIOs
Yes, with the USB-ADP-BB adapter
4 modes
Yes
22-pin connector
Accessories
Light Meters
Spectrometers
M2
Optical Bench
Design
Focal length
89.1 x 63.3 x 34.4 mm
190 g
493
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
USB2000+UV-VIS and USB2000+VIS-NIR
G
Power /
Energy Meters
Application-ready Spectrometers for the UV-VIS and VIS-NIR
Beamprofilers
M2
We offer general-purpose UV-VIS and VIS-NIR spectrometers – where all of the optical bench accessories are already selected
– for basic spectroscopy applications such as measuring absorbance in solutions and reflectance of solids.
Features
Specifications
USB2000+UV-VIS
Dynamic range
89.1 x 63.3 x 34.4 mm
190 g
89.1 x 63.3 x 34.4 mm
190 g
USB2000+VIS-NIR-ES
89.1 x 63.3 x 34.4 mm
190 g
2048-element linear silicon CCD array 2048-element linear silicon CCD array 2048-element linear silicon CCD array 2048-element linear silicon CCD array
1 ms - 65 seconds
1 ms - 65 seconds
1 ms - 65 seconds
1 ms - 65 seconds
7
8.5 x 10 (system), 1300:1
(single acquisition)
8.5 x 107 (system), 1300:1
(single acquisition)
8.5 x 107 (system), 1300:1
(single acquisition)
8.5 x 107(system), 1300:1
(single acquisition)
75 photons/count; also, 2.9 x 10-17 75 photons/count; also, 2.9 x 10-17 75 photons/count; also, 2.9 x 10-17
joule/count 2.9 x 10-17watts/count
(for 1-second integration)
250:1 (at full signal)
50 (RMS)
600 lines/mm, set to 350-1000 nm
(blazed at 500 nm)
25 μm width (height is 1000 μm)
joule/count 2.9 x 10-17watts/count
(for 1-second integration)
250:1 (at full signal)
50 (RMS)
600 lines/mm, set to 200-850 nm
(blazed at 300 nm)
25 μm width (height is 1000 μm)
joule/count 2.9 x 10-17watts/count
(for 1-second integration)
250:1 (at full signal)
50 (RMS)
600 lines/mm, set to 350-1000 nm
(blazed at 500 nm)
25 μm width (height is 1000 μm)
No
Yes
Yes
42 mm (input); 68 mm (output)
Single-piece, multi-bandpass
detector coating to eliminate secondorder effects from 350-1000 nm
1.5 nm (FWHM)
42 mm (input); 68 mm (output)
Single-piece, multi-bandpass detector
coating to eliminate second-order
effects from 200-850 nm
1.5 nm (FWHM)
< 0.05% at 600 nm
< 0.10% at 435 nm
< 0.10% at 250 nm
SMA 905 to single-strand optical
fiber (0.22 NA)
42 mm (input); 68 mm (output)
Single-piece, multi-bandpass
detector coating to eliminate secondorder effects from 350-1000 nm
1.5 nm (FWHM)
< 0.05% at 600 nm
< 0.10% at 435 nm
SMA 905 to single-strand optical
fiber (0.22 NA)
Accessories
75 photons/count;also, 2.9 x 10-17
-17
joule/count 2.9 x 10 watts/count
(for1-second integration)
Signal-to-noise ratio 250:1 (at full signal)
Dark noise
50 (RMS)
600 lines/mm, set to 200-850 nm
Grating
(blazed at 300 nm)
Slit
25 μm width (height is 1000 μm)
Detector collection
No
lens
Focal length
42 mm (input); 68 mm (output)
Single-piece, multi-bandpass detector
coating to eliminate second-order
Order-sorting
effects from 200-850 nm
Resolution
1.5 nm (FWHM)
< 0.05% at 600 nm
Stray light
< 0.10% at 435 nm
< 0.10% at 250 nm
SMA 905 to single-strand optical fiber
Fiber optic connector
(0.22 NA)
Sensitivity
89.1 x 63.3 x 34.4 mm
190 g
USB2000+UV-VIS-ES
Light Meters
Dimensions
Weight
Detector
Integration time
USB2000+VIS-NIR
Spectrometers
* Each of the four models has an order-sorting filter and 25 μm slit for optical resolution of ~1.5 nm (FWHM)
* The USB2000+UV-VIS covers the 200-850 nm range and the USB2000+VIS-NIR covers 350-1000 nm
* Enhanced sensitivity models (ES) have an installed detector collection lens for increased light collection efficiency
* Software is priced separately and operates on Windows, OS X and Linux operating system
< 0.05% at 600 nm
< 0.10% at 435 nm
SMA 905 to single-strand optical
fiber (0.22 NA)
http://www.unice-eo.com Email : [email protected]
494
USB4000-UV-VIS and USB4000-VIS-NIR
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
Accessories
Light Meters
Spectrometers
M2
Beamprofilers
Application-ready Spectrometers for the UV-VIS and VIS-NIR
The USB4000-UV-VIS and USB4000-VIS-NIR are reliable, robust spectrometers that have a 3648-element linear CCD
array detector for good signal-to-noise performance as well as enhanced electronics for controlling the spectrometer and
accessories.
Each spectrometer has a 3648-element Toshiba TCD1304AP detector with a multibandpass order-sorting filter and 25 μm
slit for optical resolution to ~1.5 nm (FWHM). We also offer enhanced-sensitivity (ES) models – distinguished by more
efficient light collection optics. The USB4000-UV-VIS covers the 200-850 nm wavelength range and the USB4000-VIS-NIR
covers 350-1000 nm. Software is priced separately and operates on Windows, OS X and Linux.
Specifications
Dimensions
Weight
Detector
Integration time
Dynamic range
Sensitivity
USB4000-UV-VIS
USB4000-VIS-NIR
USB4000-UV-VIS-ES
USB4000-VIS-NIR-ES
89.1 x 63.3 x 34.4 mm
190 g
Toshiba TCD1304AP Linear CCD array
3.8 ms-10 seconds
6
3.4 x 10 (system), 1300:1 for a
single acquisition
89.1x 63.3 x 34.4 mm
190 g
Toshiba TCD1304AP Linear CCD array
3.8 ms-10 seconds
6
3.4 x 10 (system), 1300:1 for a
single acquisition
89.1 x 63.3 x 34.4 mm
190 g
Toshiba TCD1304AP Linear CCD array
3.8 ms-10 seconds
6
3.4 x 10 (system), 1300:1 for a
single acquisition
89.1 x 63.3 x 34.4 mm
190 g
Toshiba TCD1304AP Linear CCD array
3.8 ms-10 seconds
6
3.4 x 10 (system), 1300:1 for a
single acquisition
130 photons/count at 400 nm;
60 photons/count at 600 nm
130 photons/count at 400 nm;
60 photons/count at 600 nm
130 photons/count at 400 nm;
60 photons/count at 600 nm
130 photons/count at 400 nm;
60 photons/count at 600 nm
300:1 (at full signal)
50 (RMS)
600 l/mm, set to 350-1000 nm
(blazed at 500 nm)
1000 μm x 25 μm
No
42 mm (input); 68 mm (output)
300:1 (at full signal)
50 (RMS)
600 l/mm, set to 200-850 mm
(blazed at 300 nm)
1000 μm x 25 μm
Yes
42 mm (input); 68 mm (output)
Signal-to-noise ratio 300:1 (at full signal)
Dark noise
50 (RMS)
600 l/mm, set to 200-850 mm
Grating
(blazed at 300 nm)
Slit
1000 μm x 25 μm
Detector collection No
Focal length
42 mm (input); 68 mm (output)
Order-sorting
Single-piece, multi-bandpass detector
Single-piece, multi-bandpass
detector coating to eliminate second- coating to eliminate second-order
order effects from 200-850 nm effects from 350-1000 nm
Optical resolution 1.5-2.3 nm (FWHM)
Stray light
<0.05% at 600 nm; 0.10% at 435 nm
SMA 905 to single-strand optical
Fiber optic connector
fiber (0.22 NA)
495
1.5-2.3 nm (FWHM)
<0.05% at 600 nm; 0.10% at 435 nm
SMA 905 to single-strand optical
fiber (0.22 NA)
300:1 (at full signal)
50 (RMS)
600 l/mm, set to 350-1000 nm
(blazed at 500 nm)
1000 μm x 25 μm
Yes
42 mm (input); 68 mm (output)
Single-piece, multi-bandpass
Single-piece, multi-bandpass
detector coating to eliminate
detector coating to eliminate secondsecond-order effects from 350order effects from 200-850 nm
1000 nm
1.5-2.3 nm (FWHM)
1.5-2.3 nm (FWHM)
<0.05% at 600 nm; 0.10% at 435 nm <0.05% at 600 nm; 0.10% at 435 nm
SMA 905 to single-strand optical SMA 905 to single-strand optical
fiber (0.22 NA)
fiber (0.22 NA)
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
USB Series - XR Spectrometers
Our XR-Series USB Spectrometers are responsive across a wide spectral range and
provide you optical resolution of ~2.0 nm (FWHM) with the convenience of a single,
monolithic unit that covers wavelengths from ~200-1025 nm.
This grating delivers 825 nm of spectral range and is blazed at 250 nm. And, because
their optical bench designs are not affected, the USB2000+ and USB4000 experience no
trade-off in performance with the new grating.
Beamprofilers
With the XR Series, there’s no need to daisy-chain multiple spectrometers to enable UVNIR coverage. Thanks to the XR’s 500 lines/mm groove density grating, you have the
advantages of broader spectral coverage as well as good optical resolution.
Power /
Energy Meters
Extended Range XR Spectrometers
G
Specifications
USB4000-XR1
USB2000+XR1-ES
USB4000-XR1-ES
USB2000+ enhancedsensitivity USB4000 enhancedsensitivity
spectrometer
Grating #31, 500 l/mm, blazed at
250 nm
200-1025 nm
25 μm
Yes
~1.7-2.0 nm
Yes
Note: Dimensions, detector and electronics specifications are comparable to the specifications for the USB2000+ and USB4000 Spectrometers and their application-ready
versions.
Spectrometers
spectrometer
Grating #31, 500 l/mm, blazed at
250 nm
200-1025 nm
25 μm
Yes
~1.7-2.1 nm
Yes
M2
USB2000+XR1
USB2000+ advanced electronics USB4000 general-purpose
Spectrometer type
spectrometer
spectrometer
Grating #31, 500 l/mm, blazed at Grating #31, 500 l/mm, blazed at
Grating
250 nm
250 nm
Spectral range
200-1025 nm
200-1025 nm
Entrance slit
25 μm
25 μm
Detector collection lens
No
No
Optical resolution (FWHM) ~1.7-2.1 nm
~1.7-2.0 nm
Order-sorting filter
Yes
Yes
Technical Tip: XR-Series Applications
http://www.unice-eo.com Email : [email protected]
Accessories
Those applications benefit from the XR’s unique
optical characteristics. The diffraction grating provides coverage
from 200-1025 nm, but that’s only part of the story. The broad
range doesn’t do you much good if you are unable to manage
higher-order spectral sorting. So we developed a proprietary ordersorting filter that is applied directly to the detector to eliminate
second- and third-order effects.
Light Meters
XR-series spectrometers are especially useful
for solar irradiance measurements, atomic
emission line analysis, plasma monitoring,
process applications and more.
496
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
USB4000-FL Fluorescence Spectrometers
Preconfigured Spectrometers for Fluorescence
Specifications
Physical
Dimensions
Beamprofilers
Weight
Detector Specifications
Detector
Detector range
Pixels
Pixel size
Pixel well depth
There are three USB4000-FL options:
* USB4000-FL-450 and USB4000-FL-395
These models offer all the advantages of our
USB4000-FL, but with a direct-attach 470 nm
LED (pictured) or 395 nm LED for excitation.
The LED connects to the spectrometer via a
10-pin connector.
The spec trometer power s and controls
(through software) the LED. The direct-attach
LED option provides you with a convenient,
small-footprint package for your singlewavelength excitation needs.
Accessories
Spectrometers
The USB4000-FL, USB4000-FL-450 and USB4000FL-395 Spectrometers are preconfigured for
fluorescence measurements from 360-1100
nm. Each spectrometer comes with a 200 μm
slit and detector collection lens for increased
light throughput and features plug-and-play
operation, a high-performance 3648-element
CCD-array detector and fast USB 2.0 connectivity.
Light Meters
M2
Sensitivity
497
* USB4000-FL
Our basic fluorescence spectrometer can be
combined.With various excitation sources
and accessories for probe- and cuvettebased
setups. We of fer an ex tensive range of
separate LEDs for excitation.
Optical Bench
Design
Focal length
Entrance aperture
Grating
Detector collection lens
Fiber optic connector
89.1 x 63.3 x 34. 4 mm (spectrometer only)
89.1 x 120.3 x 34.4 mm (spectrometer w/LED)
190 g (spectrometer only)
310 g (spectrometer w/LED)
Toshiba TCD1304AP Linear CCD array
200 - 1100 nm
3648 pixels
8 μm x 200 μm
100,000 electrons
130 photons/count at 400 nm; 60 photons/count at
600 nm
f/4, Asymmetrical crossed Czerny-Turner
42 mm (input); 68 mm (output)
200 μm wide slit
Grating #3 -- groove density 600 l/mm, set to 360 1000 nm, 500 nm blaze
Yes, L4
SMA 905 to 0.22 numerical aperture single-strand
optical fiber
Spectroscopic
Wavelength range
360 - 1000 nm
Optical resolution
~10.0 nm FWHM
Signal-to-noise ratio
300:1 (at full signal)
A/D resolution
16 bit
Dark noise
50 RMS counts
Dynamic range
3.4 x 106 (system), 1300:1 for a single acquisition
Integration time
3.8 ms-10 seconds
Stray light
< 0.05% at 600 nm; < 0.10% at 435 nm
Corrected linearity
> 99%
LED Specifications for USB4000-FL-450 and USB4000-FL-395
460-490 nm (USB4000-FL-450) and 380 - 410nm
Wavelength
(USB4000-FL-395)
Power consumption
60 mA @ 5 VDC
Power output
60 μW (minimum) into a 600 μm fiber
Stability
+/-1.0% drift after 2-minute warm-up period
Electronics
Power consumption
250 mA @ 5 VDC
Data transfer speed
Full scans to memory every 5 ms with USB 2.0 port
Inputs/Outputs
Yes, 8 onboard digital user-programmable GPIOs
Analog channels
No
Auto nulling
Yes
Trigger modes
4 modes
Strobe functions
Yes
Connector
22-pin connector
* Filtering Options
USB4000-FLs can be used with our LVFseries Linear Variable Filters for simple
yet effective separation of excitation and
fluorescence energy. Use our LVF-L Linear
Variable Low-pass Filter to fine-tune your
excitation source for maximum signal with
minimum overlap. Our LVF-H Linear Variable
High-pass Filter can be ef fective on the
detection side. Additional blocking filter
options are also available.
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
USB2000+RAD Spectrometer
Specifications
Physical
Dimensions
Weight
Detector
Sensitivity
Fiber optic connector
Spectroscopic
Wavelength range
Optical resolution
Signal-to-noise ratio
A/D resolution
Dark noise
Dynamic range
Integration time
Stray light
Corrected linearity
Electronics
Power consumption
Data transfer speed
Trigger modes
Strobe functions
Gated delay feature
Connector
SMA 905 to 0.22 numerical aperture single-strand
optical fiber
200 - 850 nm
~2.0 FWHM
250:1 (at full signal)
16 bit
50 RMS counts
8.5 x 107(system); 1300:1 for a single acquisition
1 ms to 65 seconds (20 s typical)
< 0.05% at 600 nm; < 0.10% at 435 nm
> 99%
250 mA @ 5 VDC
Full scans to memory every 1 ms with USB 2.0 or
1.1 port, 300 ms with serial port
4 modes
Yes
Yes
22-pin connector
http://www.unice-eo.com Email : [email protected]
Accessories
* Programmable microcontroller
* Up to 1,000 full spectra per second
* Modular design
* Automatically reads wavelength calibration
coefficients of the spectrometer and
configures operating software
* RoHS and CE compliant
Light Meters
Features
Detector collection lens
Collimating and focusing mirror
UV enhanced window
f/4, Symmetrical crossed Czerny-Turner
42 mm input; 68 mm output
50 μm wide slit
Grating # 2 groove density 600 l/mm,
set to 250-800 nm(400 nm blaze)
Yes, L2
Standard
UV2 quartz window
Spectrometers
This spectroradiometer system features a
USB2000+ Spectrometer and attached CC-3DA cosine corrector. It does not require infield NIST-traceable UV-VIS calibration as
it is precalibrated by Ocean Optics with our
SPEC-CAL-UV radiometric calibration service
for UV spectrometers. The USB2000+RAD
is preconfigured and ready for measurement
"out of the box" so that installation and
measurement is fast, accurate and convenient.
Grating
Sony ILX511B linear silicon CCD array
200 - 1100 nm
2048 pixels
14 μm x 200 μm
~62,500 electrons
75 photons/count at 400 nm;
41 photons/count at 600 nm
M2
The USB2000+RAD Spectroradiometer is a
preconfigured combination of a powerful 2-MHz
analog-to-digital (A/D) converter, programmable
electronics, a 2048-element CCD-array detector,
a high-speed USB 2.0 port and cosine corrector.
This innovative combination produces our fastest
spectrometer yet and provides resolution to 0.35 nm
(FWHM). The USB2000+RAD allows you to capture
and store a full spectrum into memory up to once
per millisecond when the spectrometer is interfaced
to a computer via a USB 2.0 port.
Optical Bench
Design
Focal length
Entrance aperture
89.1 x 63.3 x 34.4 mm
190 g
Beamprofilers
Detector
Detector range
Pixels
Pixel size
Pixel well depth
Power /
Energy Meters
Preconfigured for Irradiance Measurements
G
498
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
USB User-Configured Spectrometers
Optical Bench Accessories
UV2 and UV4 Detector Window Upgrades
Detector
Beamprofilers
DET2B-200-850
DET2B-200-1100
DET2B-350-1000
DET2B-UV
DET2B-VIS
DET2B-TORUS-OSF
DET4-200-850
DET4-200-1100
M2
DET4-350-1000
DET4-UV
DET4-VIS
Description
Spectrometer
Sony ILX511B detector, installed, w/200-850 nm variable longpass filter and UV2 quartz window;
best for UV-VIS systems configured with Grating #1 or #2
Sony ILX511B detector, installed, w/200-850 nm variable longpass filter and UV2 quartz window;
best for UV-VIS systems configured with XR-1 Grating
Sony ILX511B detector, installed, with 350-1000 nm variable longpass filter;
best for VIS system configured with Grating #2 or #3
Sony ILX511B detector, installed, with UV2 quartz window; best for systems configured for <360 nm
Sony ILX511B detector, installed, with VIS BK7 window; best for systems configured for >400 nm
Sony ILX511B detector, installed, with Torus Order-Sorting Filter
Toshiba TCD1304AP detector, installed, w/200-850 nm variable longpass filter and UV2 quartz window;
best for UV-VIS systems configured with Grating #1 or #2
Toshiba TCD1304AP detector, installed, with 200-850 nm variable longpass filter and UV4 quartz window;
best for systems configured with XR-1 grating
Toshiba TCD1304AP detector, installed, with 350-1000 nm variable longpass filter;
best for VIS systems configured with Grating #2 or #3
Toshiba TCD1304AP detector, installed, with UV4 quartz window; best for systems configured for <360 nm
Toshiba TCD1304AP detector, installed, with VIS BK7 window; best for systems configured for >400 nm
USB2000+
USB2000+
USB2000+
USB2000+
USB2000+, Torus
Torus
USB4000
USB4000
USB4000
USB4000
USB4000
Fixed Entrance Slits
Spectrometers
Our entrance slits are rectangular apertures that are 1 mm tall and come in varying widths from 5 μm to 200 μm. Smaller slit sizes
achieve the best optical resolution.
Slit
Description
USB2000+ Pixel Resolution
SLIT-5
5-µm wide x 1-mm high
SLIT-10
10-µm wide x 1-mm high
SLIT-25
25-µm wide x 1-mm high
SLIT-50
50-µm wide x 1-mm high
SLIT-100
100-µm wide x 1-mm high
SLIT-200
200-µm wide x 1-mm high
Note: Torus uses INTSMA-Series slits. See Jaz section for options
USB4000 Pixel Resolution
~3.0 pixels
~3.2 pixels
~4.2 pixels
~6.5 pixels
~12 pixels
~24 pixels
~5.3 pixels
~5.7 pixels
~7.5 pixels
~11.6 pixels
~21 pixels
~42 pixels
Accessories
Light Meters
Longpass Absorbing Filters
Whether you select a Longpass Absorbing or Blocking Filter, each has a transmission band and a blocking band to restrict
radiation to a certain wavelength region. This helps eliminate second- and third-order effects. Filters are installed permanently.
Item
OF1-WG305
OF1-GG375
OF1-GG395
OF1-GG475
OF1-OG515
OF1-OG550
OF1-OG590
Description
Longpass filter; transmits light >305 nm
Longpass filter; transmits light >375 nm
Longpass filter; installed, transmits light >395 nm
Longpass filter; transmits light >475 nm
Longpass filter; transmits light >515 nm
Longpass filter; transmits light >550 nm
Longpass filter; transmits light >590 nm
Grating and Wavelength Range
Grating
Number
Intended
Use
Groove
Density
Spectral
Range
1
UV
600
650 nm
2
UV-VIS
600
650 nm
3
VIS-Color
600
650 nm
4
NIR
600
625 nm
5
UV-VIS
1200
300 nm
6
NIR
1200
200-270 nm
7
UV-VIS
2400
100-140 nm
9
VIS-NIR
1200
200-270 nm
10
UV-VIS
1800
100-190 nm
11
UV-VIS
1800
120-160 nm
12
UV-VIS
2400
50-120 nm
14
NIR
600
625 nm
31
UV-NIR
500
200-1025 nm
* For applications >720 nm, please consult an Application Sales Engineer.
499
Blaze
Wavelength
Best Efficiency
(>30% )
300 nm
400 nm
500 nm
750 nm
Holographic UV
750 nm
Holographic UV
Holographic VIS
Holographic UV
Holographic VIS
Holographic VIS
1000 nm
250 nm
200-575 nm
250-800 nm
350-850 nm
530-1100 nm
200-400 nm
500-1100 nm
200-500 nm
400-800 nm
200-635 nm
320-720 nm
260-780 nm
650-1100 nm
200-450 nm
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
Torus - Concave Grating Spectrometer
Torus uses a Sony ILX511B linear CCD-array detector. However, the Torus debuts a unique flat field optical bench design.
The Torus has the same robust, high-speed electronics made popular by our USB2000+, but with improved throughput and
less stray light due to the aberration-corrected toroidal grating. Its interchangeable slit design adds on-the-fly flexibility.
Power /
Energy Meters
High Throughput Compact Spectrometer for Color Measurements and Light Metrology
G
Beamprofilers
M2
% Stray Light Torus vs. Planar Grating Spectrometers Measured
with Tungsten Halogen Source and 610 nm High-pass Filter
149.9 mm (L) x 119.4 mm (W) x 63.5 mm (H)
0.954 kg (2.1 lb)
Sony ILX511B
200 - 1100nm
2048
360-825nm
1 ms – 65 sec
8.5 x 107 (system) ; 1300:1 (single acquisition)
250:1 at full signal
Toriodal concave holographic grating blazed at 400 nm
5, 10, 25, 50 or 100 μm wide slit or fiber with userselectable aperture (tested at F3 and F4)
≤ 1.6 nm FWHM over the spectral range
<0.015% at 400 nm
SMA
Light Meters
Physical
Dimensions
Weight
Detector
Type
Range
Pixels
Spectroscopic
Wavelength range
Integration time
Dynamic range
Signaltonoise ratio
Grating
Slit
Optical resolution
Stray light
Fiber optic connector
Spectrometers
Specifications
Accessories
http://www.unice-eo.com Email : [email protected]
500
HR2000+ Spectrometer
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
High Resolution User-Configured for Flexibility
Specifications
Beamprofilers
Physical
Dimensions
Weight
Detector
148.6 x 104.8 x 45.1 mm
570 g
Detector
Detector range
Pixels
Pixel size
Pixel well depth
Sony ILX511B linear silicon CCD-array
200 - 1100 nm
2048 pixels
14 μm x 200 μm
~62,500 electrons
75 photons/count at 400 nm; 41 photons/count at
600 nm
Sensitivity
Optical Bench
Design
Focal length
Accessories
Light Meters
Spectrometers
M2
HR2000+
501
One of our most popular items, the HR2000+
Spectrometer features a high-resolution optical
bench, a powerful 2-MHz analog-to-digital (A/D)
converter, programmable electronics, a 2048-element
CCD-array detector and a high-speed USB 2.0 port.
This innovative combination produces an extremely
fast spectrometer and provides resolution to 0.035
nm (FWHM).
Features
* Up to 1,000 full spectra per second
* Programmable microcontroller
* High-resolution performance
* Multiple bench and interface options
Entrance aperture
Grating options
HC-1 grating option
Detector collection lens option
OFLV filter options
Other bench filter options
Collimating and focusing mirrors
UV enhanced window
Fiber optic connector
f/4, Symmetrical crossed Czerny-Turner
101.6 mm input and output
5, 10, 25, 50, 100 or 200 μm wide slits or fiber
(no slit)
Multiple gratings, UV through Shortwave NIR
Provides 200 - 1050 nm range
Yes, L2
OFLV 200-1100 nm
Longpass OF-1 filters
Standard or SAG+UPG-HR
Yes, UV2 quartz window
SMA 905 to 0.22 numerical aperture single-strand
optical fiber
Spectroscopic
Wavelength range
Optical resolution
Signal-to-noise ratio
A/D resolution
Dark noise
Dynamic range
Integration time
Stray light
Corrected linearity
Electronics
Grating dependent
~0.035 - 6.8 nm FWHM
250:1 (at full signal)
14 bit
12 RMS counts
Power consumption
220 mA @ 5 VDC
Full scans to memory every 2 ms with USB 2.0 port,
15 ms with USB 1.1 port
Yes, 10 onboard digital user-programmable GPIOs
One 13-bit analog input; one 9-bit analog output
No
Yes, HR4-BREAKOUT
4 modes
Yes
No
30-pin connector
Data transfer speed
Inputs/Outputs
Analog channels
Auto nulling
Breakout box compatibility
Trigger modes
Strobe functions
Gated delay feature
Connector
7
8.5 x 10 (system); 1300:1 for a single acquisition
1 ms-65 seconds (20 s typical)
< 0.05% at 600 nm; < 0.10% at 435 nm
> 99%
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
HR4000 Spectrometer
Specifications
Physical
Sensitivity
Optical Bench
Design
Focal length
Inside the HR4000 Spectrometer is a 3648-element
CCD-array Toshiba detector that enables optical
resolution as precise as 0.02 nm (FWHM).
Responsive from 200-1100 nm, the HR4000 can be
customized for your setup needs through a choice of
gratings, slits and other optical bench options.
Grating options
HC-1 grating option
Detector collection lens option
OFLV filter options
Other bench filter options
Collimating and focusing mirrors
UV enhanced window
The HR4000 gives you the freedom to set integration
time and features an electronic shutter that helps
minimize saturation – even with 3.8 ms integration.
Fiber optic connector
Features
* Onboard microcontroller and electronic shutter
* 0.02 nm optical resolution (FWHM) possible
* Choice of configurations and accessories
Grating dependent
~0.02-8.4 nm FWHM
300:1 (at full signal)
14 bit
12 RMS counts
3.4 x 106(system); 1300:1 for a single acquisition
3.8 ms-10 seconds
< 0.05% at 600 nm; < 0.10% at 435 nm
> 99%
http://www.unice-eo.com Email : [email protected]
Accessories
450 mA @ 5 VDC
Full scans to memory every 4 ms with USB 2.0 port
Yes, 10 onboard digital user-programmable GPIOs
One 13-bit analog input; one 9-bit analog output
No
Yes, HR4-BREAKOUT
4 modes
Yes
No
30-pin connector
Light Meters
Spectroscopic
Wavelength range
Optical resolution
Signal-to-noise ratio
A/D resolution
Dark noise
Dynamic range
Integration time
Stray light
Corrected linearity
Electronics
Power consumption
Data transfer speed
Inputs/Outputs
Analog channels
Auto nulling
Breakout box compatibility
Trigger modes
Strobe functions
Gated delay feature
Connector
f/4, Symmetrical crossed Czerny-Turner
101.6 mm input and output
5, 10, 25, 50, 100 or 200 μm wide slits or fiber
(no slit)
Multiple gratings, UV through Shortwave NIR
Provides 200 - 1050 nm range (best efficiency)
Yes, L4
OFLV - 200 - 1100
Longpass OF-1 filters
Standard or SAG+UPG-HR
Yes, UV4 quartz window
SMA 905 to 0.22 numerical aperture single-strand
optical fiber
Spectrometers
Entrance aperture
Toshiba TCD1304AP linear CCD array
200 - 1100 nm
3648 pixels
8 μm x 200 μm
~100,000 electrons
130 photons/count at 400 nm; 60 photons/count at
600 nm
M2
HR4000
148.6 x 104.8 x 45.1 mm
570 g
Beamprofilers
Dimensions
Weight
Detector
Detector
Detector range
Pixels
Pixel size
Pixel well depth
Power /
Energy Meters
High Resolution User-Configured for Flexibility
G
502
HR2000+CG Application-Ready Spectrometer
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
Preconfigured for High Resolution over Extended Range
Specifications
Physical
Dimensions
Weight
Detector
Beamprofilers
Detector
Detector range
Pixels
Pixel size
Pixel well depth
Sensitivity
148.6 x 104.8 x 45.1 mm
570 g
Sony ILX511B linear silicon CCD array
200 - 1100 nm
2048 pixels
14 μm x 200 μm
~62,500 electrons
75 photons/count at 400 nm; 41 photons/count at
600 nm
Optical Bench
Spectrometers
M2
HR2000+CG
The HR2000+CG Composite Grating Spectrometer is
preconfigured with our HC-1 Grating. This proprietary
variable-blazed grating was specifically designed to
provide full spectral output throughout the 200-1050
nm range.
Also, the HR2000+CG optical bench is preconfigured
with a 5 μm slit for excellent optical resolution and
our OFLV-200-1100 Variable Longpass Order-sorting
Filter to eliminate second- and third-order effects.
The HR2000+CG is ideal for biological and chemical
applications where fast measurements and high
resolution are needed.
* Broad UV-NIR response
* High resolution (1.0 nm FWHM) over entire
available range
* Captures up to 1,000 full scans per second
* Programmable microcontroller
Fiber optic connector
Spectroscopic
Wavelength range
Optical resolution
Signal-to-noise ratio
A/D resolution
Dark noise
Dynamic range
Integration time
Stray light
Corrected linearity
Electronics
Power consumption
Data transfer speed
Inputs/outputs
Analog channels
Trigger modes
Strobe functions
Connector
f/4, Symmetrical crossed Czerny-Turner
101.6 mm input and output
5 μm wide slit
HC-1
OFLV - 200 - 1100
Yes, UV2 quartz window
SMA 905 to 0.22 numerical aperture single-strand
fiber
200-1100 nm (best response 200 - 1050 nm)
<1.0 nm FWHM
250:1 (at full signal)
14 bit
12 RMS counts
8.5 x 107(system); 1300:1 for a single acquisition
1 ms to 65 seconds
< 0.05% at 600 nm; < 0.10% at 435 nm
> 99%
220 mA @ 5 VDC
Full scans into memory every 2 ms with USB 2.0
port;every 15 ms with USB 1.1 port
10 onboard digital user-programmable GPIOs
One 13-bit analog input and one 9-bit analog output
4 modes
Yes
30-pin connector
Accessories
Light Meters
Features
Design
Focal length
Entrance aperture
Grating
OFLV filter
UV enhanced window
503
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
HR2000+ES Application-Ready Spectrometer
Specifications
Physical
Sensitivity
148.6 x 104.8 x 45.1 mm
570 g
Sony ILX511B linear silicon CCD-array
200 - 1100 nm
2048 pixels
14 μm x 200 μm
~62,500 electrons
75 photons/count at 400 nm; 41 photons/count at
600 nm
Beamprofilers
Dimensions
Weight
Detector
Detector
Detector range
Pixels
Pixel size
Pixel well depth
Power /
Energy Meters
Preconfigured for High Resolution and Sensitivity
G
Optical Bench
HR2000+ES
Features
Sample Applications for
HR2000+CG/HR2000+ES
Data transfer speed
Inputs/Outputs
Analog channels
Auto nulling
Breakout box compatibility
Trigger modes
Strobe functions
Gated delay feature
Connector
200 - 1100 nm (best response 200 - 1050 nm)
~1.33 nm FWHM
250:1 (at full signal)
14 bit
12 RMS counts
7
8.5 x 10 (system); 1300:1 for a single acquisition
1 ms-65 seconds (20 s typical)
< 0.05% at 600 nm; < 0.10% at 435 nm
> 99%
220 mA @ 5 VDC
Full scans to memory every 1 ms with USB 2.0 port,
15 ms with USB 1.1 port
Yes, 10 onboard digital user-programmable GPIOs
One 13-bit analog input; one 9-bit analog output
No
Yes, HR4-BREAKOUT
4 modes
Yes
No
30-pin connector
Accessories
* Thin film measurements of various substrates
* Plasma monitoring
* Reflectance of nanoparticles
* Analysis of phosphors
* Characterization of lasers
* Solar irradiance
* Spectral output of light sources
Wavelength range
Optical resolution
Signal-to-noise ratio
A/D resolution
Dark noise
Dynamic range
Integration time
Stray light
Corrected linearity
Electronics
Power consumption
Light Meters
* Up to 1,000 full spectra per second
* Programmable microcontroller
* High-resolution bench
* Plug and play operation
Spectroscopic
Spectrometers
The HR2000+ES has a slightly larger entrance slit (10
μm) and an L2 detector collection lens for additional
sensitivity in extended-range applications. We also
include a UV2 quartz window for UV transmission
and the OFLV-200-1100 Variable Longpass Ordersorting Filter to eliminate second- and third-order
effects.
Fiber optic connector
f/4, Symmetrical crossed Czerny-Turner
101.6 mm input and output
10 μm wide slit
HC-1 provides 200 - 1100 nm range
Yes, L2
OFLV 200 - 1100 nm
Yes, UV2 quartz window
SMA 905 to 0.22 numerical aperture single-strand
optical fiber
M2
The HR2000+ES Spectrometer is a preconfigured
system for enhanced sensitivity. This system
integrates a high-resolution optical bench with a
powerful 2-MHz A/D converter, programmable
electronics and a 2048-element CCD-array detector
for optical resolution to ~1.33 nm (FWHM).
Design
Focal length
Entrance aperture
Grating
Detector collection lens
OFLV filter
UV enhanced window
http://www.unice-eo.com Email : [email protected]
504
HR4000CG-UV-NIR Spectrometer
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
Preconfigured for High Resolution and Extended Range
Specifications
Beamprofilers
Physical
Dimensions
Weight
Detector
148.6 x 104.8 x 45.1 mm
570 g
Detector
Detector range
Pixels
Pixel size
Pixel well depth
Sony ILX511B linear silicon CCD-array
200 - 1100 nm
2048 pixels
14 μm x 200 μm
~62,500 electrons
75 photons/count at 400 nm; 41 photons/count at
600 nm
Sensitivity
Optical Bench
Accessories
Light Meters
Spectrometers
M2
Design
Focal length
505
Our HR4000CG-UV-NIR Composite Grating
Spectrometer uses our HC-1 Grating and
provides full spectral output from 200-1100 nm
with best efficiency at 200-1050 nm.
This preconfigured system has an OFLV variable
Longpass Order-sorting filter that eliminates
second- and third-order effects and utilizes a 5
μm entrance slit for improved optical resolution
performance.
Features
* Up to 1,000 full spectra per second
* Programmable microcontroller
* High-resolution performance
* Multiple bench and interface options
Entrance aperture
Grating options
HC-1 grating option
Detector collection lens option
OFLV filter options
Other bench filter options
Collimating and focusing mirrors
UV enhanced window
Fiber optic connector
f/4, Symmetrical crossed Czerny-Turner
101.6 mm input and output
5, 10, 25, 50, 100 or 200 μm wide slits or fiber
(no slit)
Multiple gratings, UV through Shortwave NIR
Provides 200 - 1050 nm range
Yes, L2
OFLV 200 - 1100 nm
Longpass OF-1 filters
Standard or SAG+UPG-HR
Yes, UV2 quartz window
SMA 905 to 0.22 numerical aperture single-strand
optical fiber
Spectroscopic
Wavelength range
Optical resolution
Signal-to-noise ratio
A/D resolution
Dark noise
Dynamic range
Integration time
Stray light
Corrected linearity
Electronics
Power consumption
Data transfer speed
Inputs/Outputs
Analog channels
Auto nulling
Breakout box compatibility
Trigger modes
Strobe functions
Gated delay feature
Connector
Grating dependent
~0.035 - 6.8 nm FWHM
250:1 (at full signal)
14 bit
12 RMS counts
8.5 x 107(system); 1300:1 for a single acquisition
1 ms-65 seconds (20 s typical)
< 0.05% at 600 nm; < 0.10% at 435 nm
> 99%
220 mA @ 5 VDC
Full scans to memory every 2 ms with USB 2.0 port,
15 ms with USB 1.1 port
Yes, 10 onboard digital user-programmable GPIOs
One 13-bit analog input; one 9-bit analog output
No
Yes, HR4-BREAKOUT
4 modes
Yes
No
30-pin connector
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
HR User-Configured Spectrometers
UV2 and UV4 Detector Window Upgrades
For any application <360 nm, we replace the detector’s standard BK7 glass window with a quartz window. Quartz transmits in the UV and
provides better UV performance.
Detector
DET2B-UV
DET2B-VIS
DET4-200-1100
DET4-UV
DET4-VIS
Spectrometer
Sony ILX511B detector, installed, w/200-1100 nm variable longpass filter and UV2 quartz window; best for
HR2000+
UV-NIR systems configured with Grating # HC-1
Sony ILX511B detector, installed, with UV2 quartz window; best for systems configured for <360 nm HR2000+
Sony ILX511B detector, installed, with VIS BK7 window; best for systems configured for >400 nm HR2000+
Toshiba TCD1304AP detector, installed, w/200-1100 nm variable longpass filter and UV2 quartz
HR4000
window;best for UV-NIR systems configured with Grating # HC-1
Toshiba TCD1304AP detector, installed, with UV4 quartz window; best for systems configured for <360 nm HR4000
Toshiba TCD1304AP detector, installed, with VIS BK7 window; best for systems configured for >400 nm HR4000
Beamprofilers
DET2B-200-1100
Description
Power /
Energy Meters
Optical Bench Accessories
G
Fixed Entrance Slits
Slit
HR2000+ Pixel Resolution
5μm wide x 1mm high
10μm wide x 1mm high
25μm wide x 1mm high
50μm wide x 1mm high
100μm wide x 1mm high
200μm wide x 1mm high
HR4000 Pixel Resolution
~2.0 pixels
~3.7 pixels
~4.4 pixels
~7.4 pixels
~14.0 pixels
~26.8 pixels
~1.5 pixels
~2.0 pixels
~2.5 pixels
~4.2 pixels
~8.0 pixels
~15.3 pixels
Longpass Absorbing Filter
Whether you select a Longpass Absorbing or Blocking Filter, each has a transmission band and a blocking band to restrict radiation to a
certain wavelength region. This helps eliminate second- and third-order effects. Filters are installed permanently.
Item
Description
Longpass
Longpass
Longpass
Longpass
Longpass
Longpass
Longpass
filter;
filter;
filter;
filter;
filter;
filter;
filter;
transmits
transmits
transmits
transmits
transmits
transmits
transmits
Light Meters
OF1-WG305
OF1-GG375
OF1-GG395
OF1-GG475
OF1-OG515
OF1-OG550
OF1-OG590
Spectrometers
SLIT-5
SLIT-10
SLIT-25
SLIT-50
SLIT-100
SLIT-200
Description
M2
Our entrance slits are rectangular apertures that are 1 mm tall and come in varying widths from 5 μm to 200 μm. Smaller slit sizes achieve
the best optical resolution.
light >305
light >375
light >395
light >475
light >515
light >550
light >590
Grating and Wavelength Range
Intended
Use
UV-NIR
UV
UV-VIS
VIS-Color
NIR
UV-VIS
NIR
UV-VIS
VIS-NIR
UV-VIS
UV-VIS
UV-VIS
UV-NIR
NIR
Groove
Density
300/600 variable
600
600
600
600
1200
1200
2400
1200
1800
1800
2400
300
600
Spectral
Range
900 nm
425-445 nm
415-445 nm
410-440 nm
410-430 nm
205-220nm
140-195 nm
72-102 nm
165-205 nm
95-140 nm
75-135 nm
60-100 nm
800-900 nm
410-420 nm
Blaze
Wavelength
Variable
300 nm
400 nm
500 nm
750 nm
Holographic UV
750 nm
Holographic UV
Holographic VIS
Holographic UV
Holographic VIS
Holographic
500 nm
1000 nm
Best Efficiency
(>30%)
200-1050 nm
200-575 nm
250-800 nm
350-850 nm
530-1100 nm
200-400 nm
500-1100 nm
200-500 nm
400-800 nm
200-635 nm
320-720 nm
VIS 260-780 nm*
300-1100 nm
650-1100 nm
http://www.unice-eo.com Email : [email protected]
Accessories
Grating
Number
HC-1
H1
H2
H3
H4
H5
H6
H7
H9
H10
H11
H12
H13
H14
506
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
Maya2000 Pro
High Sensitivity Spectrometers
Specifications
Physical
Dimensions
Weight
Detector
Beamprofilers
Type
Options
Quantum efficiency
182 x 110 x 47 mm
1.18 kg (2.6 lb.)
Back-thinned, 2D
Hamamatsu S10420 (best option for UV-VIS
applications)
Hamamatsu S11510 (best option for VIS-NIR
applications)
75% peak @ 600 nm (S10420)
85% peak @ 700 nm (S11510)
Spectroscopic
Spectrometers
M2
Spectral range (detector response)
Maya2000 Pro Spectrometers offer high sensitivity in
configurations that cover a range of ~165-1100 nm.
They are perfect for deep-UV (vacuum UV), UV-VIS
and VIS-NIR measurements.
At the heart of each Maya2000 Pro spectrometer
is a back-thinned 2D FFT-CCD detector in a robust,
configurable optical bench with lownoise electronics.
Choose from a wide range of accessories and bench
options to optimize your system. Our Application
Sales Engineers will help you select the correct
configuration for your measurement.
Optical resolution(FWHM)
Signal-to-noise ratio at full signal
Dynamic range
Integration time
Electronics
Power requirement
Trigger modes
Strobe functions
Interfaces
Environmental Conditions
Temperature
Humidity
~165 - 1100 nm (S10420)
~400 - 1180 nm (S11510)
Depends on grating groove density and slit size
(multiple options available)
~450:1
15000:1 (typical)
7.2 ms-5 seconds
500 mA @ +5 VDC
4 modes
Yes
USB 2.0, RS232
0 °C to +50 °C (operation)
0 - 90% non-condensing
Maya2000 Pro-NIR
Light Meters
High Sensitivity Spectrometer for Raman and NIR Applications
Specifications
Physical
Accessories
Dimensions
Weight
Detector
Type
Detector
Quantum efficiency
Spectroscopic
Spectral range(preset)
Optical resolution(FWHM)
Signal-to-noise ratio at full signal
Dynamic range
Integration time
Fiber optic connector
Maya2000 Pro-NIR is an application-ready, highsensitivity spectrometer ideal for Raman and low
light level shortwave NIR applications. The Maya2000
Pro-NIR is optimized for the 780-1180 nm region
and includes a 760 nm longpass filter, 50 μm slit and
gold mirrors for enhanced NIR reflectivity.
507
182 x 110 x 47 mm
1.18 kg (2.6 lb.)
Back-thinned, 2D
Hamamatsu S11510 (uncooled)
~85% peak QE @ 700 nm; 40% QE @ 1000 nm
780 - 1180 nm
~0.82 nm
~450:1
15000:1 (typical)
7.2 ms5 seconds
SMA 905 to 0.22 numerical aperture singlestrand
optical fiber
Electronics
Power requirement
Trigger modes
Strobe functions
Interfaces
Environmental Conditions
500 mA @ +5 VDC
4 modes
Yes
USB 2.0, RS232
Temperature
Humidity
0 °C to +50 °C (operation)
0 - 90% noncondensing
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
Maya LSL Spectrometer
Power /
Energy Meters
Low Stray Light with High Sensitivity
Specifications
Physical
151 x 151 x 65 mm (5.94” x 5.94” x 2.56”)
1.9 kg (4.21 lb.)
Power requirement
Onboard pulse generator
Onboard GPIO
Interfaces
500 mA @ +5 VDC
2 programmable strobe signals
8 user-programmable digital I/O
USB 2.0, 480 Mbps; 3-wire RS-232; SPI
Hamamatsu S10420
2048 x 64
14 µm x 14 µm
75% peak @ 600 nm
7.2 ms - 5 seconds
360 – 825 nm
<1.6 nm (FWHM)
15000:1
450:01:00
<0.015% @ 400 nm
>99.7%
SMA 905 to single-strand optical fiber (0.22 NA)
Maya2000 Pro (custom)
Maya2000 Pro-NIR
Sample Applications
Hamamatsu S10420:configurable from VUV to NIR, with excellent ɁVUV and UV-Vis analysis of plasmas, gases and emission sources
response <190 nm
ɁEmission of gases in semiconductor processing
ɁLow light Vis-NIR measurements
Hamamatsu S11510: optimum configuration from ~700-1100 nm ɁModular Raman and fluorescence
ɁBiological absorbance measurements
Hamamatsu S11510: preconfigured for 780-1180 nm with 50 µm slit ɁModular Raman analysis
and 760 nm longpass filter
ɁLow light Vis-NIR measurements
ɁLow stray light applications
Hamamatsu S10420: preconfigured for 360-825 nm
ɁLife sciences measurements
ɁProcess environments
http://www.unice-eo.com Email : [email protected]
Accessories
Maya LSL
Detector and Bench Characteristics
Light Meters
Model
Spectrometers
The Maya LSL is a unique combination of
technologies providing users with high sensitivity
and low stray light performance for low light-level,
UV-sensitive and other scientific applications. The
electronics have been designed for considerable
flexibility in connecting to various modules
as well as external interfaces. The Maya LSL
spectrometer interfaces to PCs, PLCs and other
embedded controllers through USB 2.0 or RS-232
communications.
M2
Dimensions
Weight
Detector
Type
Pixels (active)
Pixel size
Quantum efficiency
Spectroscopic
Integration time
Wavelength range
Optical resolution
Dynamic range (typical)
Signal to Noise
Stray light
Linearity (corrected)
Fiber connector
Electronics
Beamprofilers
The Ocean Optics Maya LSL (Low Stray Light)
includes the linear CCD-array optical bench,
plus all the circuits necessary for spectrometer
operation. The result is a compact, flexible system,
with no moving parts, that's easily integrated as
an OEM component.
G
508
QE Pro Spectrometer
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
High-sensitivity Spectrometer for Low Light Level Applications
Advantages
M2
Beamprofilers
* Buffering full spectrum kinetics measurements
* Higher sensitivity
* Replaceable slit design
* Thermal stability
* High quantum efficiency detector
* TE-cooled detector
Specification
Physical
QE Pro
Light Meters
Spectrometers
Dimensions:
182 x 110 x 47 mm
(L x W x H) mm and inches (7.17" x 4.33" x 1.85")
Spectrometer: 1.15 kg (2.6 lbs.)
Weight: kg and lb
Power supply: 0.45 kg (1 lb.)
Detector
Type
Range
Quantum efficiency
Spectroscopic
Wavelength range
Integration time
Dynamic range
Signal-to-noise ratio
Grating
Slit
Accessories
Optical resolution
Stray light
Buffering
Fiber optic connector
Electronics
Power requirement
Strobe functions
Interfaces
Temperature
Humidity
509
QE Pro-ABS
182 x 110 x 47 mm
(7.17" x 4.33" x 1.85")
Spectrometer:1.15 kg (2.6 lbs.)
Power Supply:0.45 kg (1 lb.)
QE Pro-FL
182 x 110 x 47 mm
(7.17" x 4.33" x 1.85")
Spectrometer:1.15 kg (2.6 lbs.)
Power Supply:0.45 kg (1 lb.)
Hamamatsu scientific grade, backHamamatsu S7031-1006 scientific grade,
thinned, TE Cooled, 1044 x 64 element
back-thinned, TE Cooled, CCD array
CCD array
185 - 1100 nm
185 - 1100nm
90% (peak)
90% (peak)
Hamamatsu scientific grade, backthinned, TE Cooled, 1044 x 64 element
CCD array
185 - 1100nm
90% (peak)
200 - 1100 nm, grating dependent
8 ms to 60 minutes
~85,000:1
System: 1000:1 (single acquisition)
multiple gratings available (H1–H14),
HC1 grating
5, 10, 25, 50, 100 or 200 µm wide slits
(or SMA/FC bulkhead with no slit)
0.14 - 7.7 nm (Depends on grating and
size of entrance aperture)
<0.08% at 600 nm; 0.4% at 435 nm
15,000 spectra
SMA 905 and Ocean Optics FC
350 - 1100nm
8 ms to 60 minutes
~85,000:1
1000:1 (single acquisition)
14 gratings available (H1–H14),
HC1 grating
5, 10, 25, 50, 100 or 200 µm wide slits
(or SMA/FC bulkhead with no slit)
0.14 - 7.7 nm (Depends on grating and
size of entrance aperture)
<0.08% at 600 nm; 0.4% at 435 nm
15,000 spectra
SMA 905 and Ocean Optics FC
200 - 950nm
8 ms to 60 minutes
~85,000:1
1000:1 (single acquisition)
14 gratings available (H1–H14),
HC1 grating
5, 10, 25, 50, 100 or 200 µm wide slits
(or SMA/FC bulkhead with no slit)
0.14 - 7.7 nm (Depends on grating and
size of entrance aperture)
<0.08% at 600 nm; 0.4% at 435 nm
15,000 spectra
SMA 905 and Ocean Optics FC
Supply voltage: 4.5 - 5.5 V
Supply voltage: 4.5 - 5.5 V
Supply voltage: 4.5 - 5.5 V
continuous and single strobe
continuous and single strobe
continuous and single strobe
USB 2.0, 480 Mbps (USB 1.1
USB 2.0, 480 Mbps (USB 1.1
USB 2.0, 480 Mbps (USB 1.1
compatible); RS-232 (5-wire)
compatible); RS-232 (5-wire)
compatible); RS-232 (5-wire)
TE Cooler can only cool 40 °C below
TE Cooler can only cool 40 °C below
TE Cooler can only cool 40 °C below
ambient temperature; Operation: -40 °C to ambient temperature; Operation: -40 °C to ambient temperature; Operation: -40 °C to
+50 °C
+50 °C
+50 °C
≤ 90% noncondensing
≤ 90% noncondensing
≤ 90% noncondensing
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
Maya2000 / QE Pro User-Configured Spectrometers
Detector Options
Item
Description
Hamamatsu S10420 detector, installed, w/no variable longpass filter
Hamamatsu S10420 detector, installed, w/OFLV-200 variable longpass filter
Hamamatsu S10420 detector, installed, w/UV window
Hamamatsu S10420 detector, installed, w/VIS window
Hamamatsu S10420 detector, installed, with no window options; required for VUV applications
DET-MAYAPRO-UV, installed, w/MgF2 window in place of standard UV window
Hamamatsu S7031 detector, installed, w/no variable longpass filter
Hamamatsu S7031 detector, installed, w/OFLV-QE-200 variable longpass filter
Hamamatsu S7031 detector, installed, w/OFLV-QE-250 variable longpass filter
Hamamatsu S7031 detector, installed, w/OFLV-QE-300 variable longpass filter
Hamamatsu S7031 detector, installed, w/OFLV-QE-350 variable longpass filter
Hamamatsu S7031 detector, installed, w/OFLV-QE-400 variable longpass filter
Hamamatsu S7031 detector, installed, with no window options; required for VUV applications
Maya2000 Pro
Maya2000 Pro
Maya2000 Pro
Maya2000 Pro
Maya2000 Pro
Maya2000 Pro
QE Pro
QE Pro
QE Pro
QE Pro
QE Pro
QE Pro
QE Pro
Beamprofilers
DET-MAYAPRO
DET-MAYAPRO-OFLV-200
DET-MAYAPRO-UV
DET-MAYAPRO-VIS
DET-MAYAPRO-WINDOWLESS
MAYA-DEEP-UV
DET-QE
DET-QE-OFLV-200
DET-QE-OFLV-250
DET-QE-OFLV-300
DET-QE-OFLV-350
DET-QE-OFLV-400
DET-QE-WINDOWLESS
Spectrometer
Power /
Energy Meters
Optical Bench Accessories
G
Fixed Entrance Slits
Slit
Maya2000Pro Pixel Resolution
5μm wide x 1mm high
10μm wide x 1mm high
25μm wide x 1mm high
50μm wide x 1mm high
100μm wide x 1mm high
200μm wide x 1mm high
~1.5 pixels
~2.0 pixels
~2.5 pixels
~4.2 pixels
~8 pixels
~15.3 pixels
QE Pro Pixel Resolution
~2.0
~2.2
~2.6
~3.3
~4.7
~8.9
pixels
pixels
pixels
pixels
pixels
pixels
Longpass Absorbing Filter (Options)
If selected, an absorbance filter is installed between the slit and the clad mode aperture in the SMA 905 bulkhead. The
filter is used to limit bandwidth of light entering the spectrometer. Filters are installed permanently.
Item
Description
Longpass
Longpass
Longpass
Longpass
Longpass
Longpass
filter; transmits light >305 nm
filter; transmits light >375 nm
filter; transmits light >395 nm
filter; transmits light >475 nm transmits light >515 nm
filter; transmits light >550 nm
filter: transmits light >590 nm
Light Meters
OF1WG305
OF1GG375
OF1GG395
OF1GG475
OF1OG550
OF1OG590
Gratings and Wavelength Range
Intended
Use
UVNIR
UV-NIR
UV
UV-VIS
VIS-Color
NIR
UV-VIS
NIR
UV-VIS
VIS-NIR
UV-VIS
UV-VIS
UV-VIS
UV-NIR
NIR
Groove
Density
300/600(variable)
300/600(variable)
600
600
600
600
1200
1200
2400
1200
1800
1800
2400
300
600
Absorbance
NIR Raman
VIS Raman
Absorbance
Absorbance
Absorbance
300
1200
900
1200
2400
1800
Spectral
Range
850 nm
750nm
373-390 nm
365-390 nm
360-386 nm
360-377 nm
180-193 nm
123-170nm
63-90 nm
145-180 nm
83-123 nm
66-120 nm
52-88 nm
750-800 nm
360-370 nm
Blaze
Wavelength
variable
variable
300 nm
400 nm
500 nm
750 nm
Holographic UV
750 nm
Holographic UV
Holographic VIS
Holographic UV
Holographic VIS
Holographic VIS
500 nm
1000 nm
Best Efficiency
(>30%)
200-1050 nm
200-950nm
200-575 nm
250-800 nm
350-850 nm
530-1100 nm
200-400 nm
500-1100 nm
200-500 nm
400-800 nm
200-635 nm
320-800 nm
250-575 nm
300-1100 nm
650-1100 nm
200 nm
1000 nm
500 nm
250 nm
240 nm
250 nm
200-450 nm
525-1625 nm
325-1225 nm
225-450 nm
200-800 nm
210-475 nm
http://www.unice-eo.com Email : [email protected]
Accessories
Grating
Number
HC-1 (Maya2000 Pro)
HC-1 (QE Pro)
H1
H2
H3
H4
H5
H6
H7
H9
H10
H11
H12
H13
H14
Options
H33
H35
H36
H5U
H7U
H10U
Spectrometers
SLIT-5
SLIT-10
SLIT-25
SLIT-50
SLIT-100
SLIT-200
Description
M2
Light passes through the installed slit, which acts as the entrance aperture. Slits come in various widths from 5 μm to 200 μm.
510
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
NIRQuest Series Spectrometers
Small-Footprint Spectrometer for Near-Infrared Measurements
A high-performance optical bench, low-noise electronics and various grating options make
NIRQuest Spectrometers the best choice for modular NIR spectroscopy. This small footprint
spectrometer is available in several different models that cover various wavelength ranges between
900 nm and 2500 nm. As with most Ocean Optics designs, the NIRQuest can be customized for
your specific application with various grating, slit and mirror options.
Beamprofilers
Applications
* On-line absorbance measurement of moisture and protein
content in grain.
* Component analysis of soils in a portable laboratory.
* Laser beam characterization.
* QA/QC inspection of pharmaceutical powders.
* Through tissue blood oxygenation measurements.
* Photoluminescence measurements of coated silicon wafers.
* Monitoring of CO, CO2, NO2 and other emissions gases.
* Octane measurements of hydrocarbons.
Specifications
NIRQuest512-1.7
NIRQuest512-1.9
NIRQuest512-2.2
NIRQuest512-2.5
M2
Physical
Dimensions
Weight
Detector
Detector
Pixels
Pisel size
Optical Bench
Spectrometers
Design
Entrance aperture
(standard)
Entrance aperture
(custom options)
Grating options
(standard)
Grating options
(custom)
Light Meters
Longpass filter
2nd Order filter
Fiber optic
connector
Spectroscopic
Wavelength range
Optical resolution
(FWHM)
Signal-to-noise ratio
at full signal
A/D resolution
Accessories
Dark noise
182 x 110 x 47mm
1.18 kg (w/o power supply)
182 x 110 x 47mm
1.18 kg (w/o power supply)
182 x 110 x 47mm
1.18 kg (w/o power supply)
182 x 110 x 47mm
1.18 kg (w/o power supply)
Hamamatsu G9204-512 InGaAs linear
array
512
25μm x 500μm
Hamamatsu G9205-512 InGaAs linear
array
512
25μm x 250μm
Hamamatsu G9206-512 InGaAs linear
array
512
25μm x 250μm
Hamamatsu G9208-512W InGaAs
linear array
512
25μm x 250μm
f/4, symmetrical crossed Czerny- f/4, symmetrical crossed CzernyTurner
Turner
f/4, symmetrical crossed Czerny- f/4, symmetrical crossed CzernyTurner
Turner
25μm
25μm
25μm
25μm
10μm, 50μm, 100μm and 200μm
(or no slit)
Grating NIR3, 150 l/mm,
900 - 1700nm
NIR10, NIR11, NIR12, NIR13 and
NIR14
OF1-RG830 longpass NIR filter
(optional)
N/A
SMA 905 to 0.22 numerical aperture
single-strand optical fiber
10μm, 50μm, 100μm and 200μm
(or no slit)
Grating NIR3, 100 l/mm, 150 l/mm,
900 - 1700nm
NIR10, NIR11, NIR12, NIR13 and
NIR14
OF1-CGA1000 longpass NIR filter
(standard)
Standard
SMA 905 to 0.22 numerical aperture
single-strand optical fiber
10μm, 50μm, 100μm and 200μm
(or no slit)
Grating NIR2, 100 l/mm,
900 - 2050nm
NIR2, NIR3, NIR10, NIR11, NIR12
and NIR13
OF1-RG830 longpass NIR filter
(optional)
Standard
SMA 905 to 0.22 numerical aperture
single-strand optical fiber
10μm, 50μm, 100μm and 200μm
(or no slit)
Grating NIR1, 75 l/mm,
1075 - 2500nm
NIR10, NIR11, NIR12, NIR13 and
NIR14
OF1-RG830 longpass NIR filter
(optional)
Standard
SMA 905 to 0.22 numerical aperture
single-strand optical fiber
900 - 1700 nm w/Grating NIR3
1100 - 1900nm w/Grating NIR3
900 - 2200nm w/Grating NIR2
900 - 2500nm w/Grating NIR1
~3.1 nm w/25μm slit
~3.1 nm w/25μm slit
~5 nm w/25μm slit
~6.3 nm w/25μm slit
>15000:1 @100ms integration
>13000:1 @1000ms integration
16-bit
6 RMS counts @100ms
12 RMS counts @1000ms
>15000:1 @100ms integration
>13000:1 @1000ms integration
16-bit
6 RMS counts @100ms
12 RMS counts @250ms
7.5M (system); 10K:1 for a single
acquisition
1 ms – 1 s
10000:1 @100ms integration
10000:1 @100ms integration
16-bit
6 RMS counts @100ms
12 RMS counts @250ms
7.5M (system); 10K:1 for a single
acquisition
1 ms – 1 s
16-bit
16 RMS counts @10ms
24 RMS counts @30ms
100K (system); 7.5K:1 for a single
acquisition
1 ms – 30 ms
6
Dynamic range
Integration time
Electronics
150 x 10 (system); 15K:1 for a
single acquisition
1 ms – 120 s
Power consumption DC input jack +5V, 3 A maximum
Data transfer speed Full scan to memory every 5 ms with USB 2.0 port
External trigger input + single strobe output
Inputs/ Outputs
Breakout box
Yes
compatibility
Yes, with external hardware trigger delay
Gated delay
30-pin connector
Connector
Temperature & Thermoelectric Cooling
Temperature limits
10-35 °C (0-90% non-condensing)
(environmental)
TEC range:
Guaranteed range is 21 -- 37°C below ambient
33.5 -- 48°C below ambient
33.5 -- 48°C below ambient
20 °C
+/-0.5 °C of set temperature in <1 minute; typical long-term stability +/-0.1 °C
TEC stability
511
33.5 -- 48°C below ambient
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
NIRQuest Series Spectrometers
NIRQuest256-2.1
NIRQuest256-2.5
Physical
Hamamatsu G9206-256 InGaAs linear array
256
50μm x 250μm
Hamamatsu G9208-256 InGaAs linear array
256
50μm x 250μm
Design
Entrance aperture (standard)
Entrance aperture (custom options)
Grating options (standard)
Grating options (custom)
Longpass filter
nd
2 Order filter
f/4, symmetrical crossed Czerny-Turner
25μm
10μm, 50μm, 100μm and 200μm (or no slit)
Grating NIR2, 100 l/mm, 900 - 2050nm
NIR2, NIR3, NIR10, NIR11, NIR12 and NIR13
OF1-RG830 longpass NIR filter (optional)
Standard
SMA 905 to 0.22 numerical aperture single-strand
optical fiber
f/4, symmetrical crossed Czerny-Turner
25μm
10μm, 50μm, 100μm and 200μm (or no slit)
Grating NIR1, 75 l/mm, 1075 - 2500nm
NIR2, NIR3, NIR10, NIR11, NIR12 and NIR13
OF1-RG830 longpass NIR filter (optional)
Standard
SMA 905 to 0.22 numerical aperture single-strand
optical fiber
900 - 2050nm w/Grating NIR2
~7.6nm w/25μm slit
10000:1 @100ms integration
16-bit
6 RMS counts @100ms
12 RMS counts @250ms
15M (system); 10K:1 for a single acquisition
1 ms – 2 s
900 - 2500nm w/Grating NIR1
~ 9.5nm w/25μm slit
7500:1 @10ms integration
16-bit
8 RMS counts @10ms
12 counts RMS @30ms
500K (system); 7.5K:1 for a single acquisition
1 ms – 400 ms
Fiber optic connector
Spectroscopic
Wavelength range
Optical resolution (FWHM)
Signal-to-noise ratio at full signal
A/D resolution
Dark noise
Dynamic range
Integration time
Electronics
DC input jack +5V, 3 A maximum
Full scan to memory every 5 ms with USB 2.0 port
External trigger input + single strobe output
Yes
Yes, with external hardware trigger delay
30-pin connector
Temperature limits (environmental)
TEC range: Guaranteed range is 20°C
TEC stability
10-35 °C (0-90% non-condensing)
33.5 -- 48°C below ambient
+/-0.5 °C of set temperature in <1 minute; typical long-term stability +/-0.1 °C
Light Meters
Power consumption
Data transfer speed
Inputs/ Outputs
Breakout box compatibility
Gated delay
Connector
Temperature & Thermoelectric Cooling
Spectrometers
182 x 110 x 47 mm
1.18 kg (w/o power supply)
M2
182 x 110 x 47 mm
1.18 kg (w/o power supply)
Beamprofilers
Dimensions
Weight
Detector
Detector
Pixels
Pixel size
Optical Bench
Power /
Energy Meters
Small-Footprint Spectrometer for Near-Infrared Measurements
G
Accessories
http://www.unice-eo.com Email : [email protected]
512
Beamprofilers
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
NIRQuest Series Spectrometers
Optical Bench Accessories
NIRQuest Detectors
NIRquest-512-1.7
NIRquest-512-1.9
NIRquest-512-2.2
NIRquest-512-2.5
NIRquest-256-2.1
NIRquest-256-2.5
Pixels
Wavelength Range
Integration Time
512
512
512
512
256
256
900 – 1700nm
900 – 1900nm
900 – 2200nm
900 – 2500 nm
900 – 2100nm
900 – 2500nm
1 ms – 120 s
1 ms – 1s
1ms – 1s
1ms – 200ms
1ms – 2s
1ms – 400 ms
Fixed Entrance Slits
Slit
SLIT-10
SLIT-25
SLIT-50
SLIT-100
SLIT-200
NIRQuest512
NIRQuest512-2.2
NIRQuest512-2.5
NIRQuest256-2.1
NIRQuest256-2.5
~2.0 nm
~3.1 nm
~3.6 nm
~6.6 nm
~12.3 nm
~3.0 nm
~4.7 nm
~5.4 nm
~9.8 nm
~18.5 nm
~4.1 nm
~6.3 nm
~7.2 nm
~13.1 nm
~25 nm
~6.7 nm
~7.6 nm
~8.9 nm
~11.2 nm
~17.9 nm
~9.4 nm
~10.6 nm
~12.5 nm
~15.6 nm
~25.0 nm
M2
NIRQuest Gratings for Preconfigured Setups
Spectrometer
Spectrometers
NIRQuest512-1.7
NIRQuest512-1.9
NIRQuest512-2.2
NIRQuest512-2.5
NIRQuest256-2.1
NIRQuest256-2.5
Light Meters
NIR3
NIR3
NIR2
NIR1
NIR2
NIR1
Groove Density
(lines/mm)
150
150
100
75
100
75
Spectral Range
~800 nm
~800 nm
1150 nm
1425 nm
1150 nm
1425 nm
Blaze Wavelength Best Efficiency (>30%)
1100
1100
1600
1700
1600
1700
nm
nm
nm
nm
nm
nm
900-1700 nm
1100-1900 nm
900-2200 nm
1075-2500 nm
900-2050 nm
1075-2500 nm
NIRQuest Gratings – All Options
Grating
NIR1
NIR2
NIR3
NIR10
Accessories
Standard Grating
NIR11
NIR12
NIR13
NIR14
Intended Use
NIRQuest 512-2.5
NIRQuest 256-2.5
NIRQuest 512-2.2
NIRQuest 512-2.5
NIRQuest 256-2.1
NIRQuest 256-2.5
NIRQuest 512-1.7
NIRQuest 512-1.9
NIRQuest 512-2.2
NIRQuest 512-2.5
NIRQuest 256-2.1
NIRQuest 256-2.5
NIRQuest 512-1.7
NIRQuest 512-2.2
NIRQuest 512-2.5
NIRQuest 256-2.1
NIRQuest 256-2.5
NIRQuest 512-1.7
NIRQuest 512-2.2
NIRQuest 512-2.5
NIRQuest 256-2.1
NIRQuest 256-2.5
NIRQuest 512-1.7
NIRQuest 512-2.2
NIRQuest 512-2.5
NIRQuest 256-2.1
NIRQuest 256-2.5
NIRQuest 512-1.7
NIRQuest 512-2.2
NIRQuest 512-2.5
NIRQuest 256-2.1
NIRQuest 256-2.5
NIRQuest512-1.7
Groove Density
(lines/mm)
Spectral Range*
75
1600 nm
1700 nm
1075-2500 nm
100
1200 nm
1600 nm
900-2050 nm
150
~800 nm
1100 nm
900-1700 nm
300
350-380 nm
1200 nm
750-2200 nm
400
240-290 nm
1600 nm
980-2500 nm
500
160-220 nm
1370 nm
900-2500 nm
600
100-180 nm
1200 nm
800-2500 nm
1000
50-90 nm
1310 nm
900-1700 nm
Blaze Wavelength Best Efficiency (>30%)
* The spectral range is a function of the starting wavelength; the longer (i.e., the farther out in the NIR) the starting wavelength, the smaller the spectral range possible.
513
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
STS Series Spectrometer
The STS series is a family of compact, high performance, cost-effective spectrometers ideal for embedding into OEM
devices. The STS models are attractive option for applications such as LED characterization, absorbance and transmission
measurements. Life sciences, materials identification, environmental monitoring, quality control and process monitoring are
among some of the applications where the STS has played its role of a powerful performer in a small footprint. The STS
delivers optical resolution, sensitivity and stability associated with larger, more expensive spectrometers.
Power /
Energy Meters
UV-NIR Spectral Analysis in a Tiny Footprint
G
Beamprofilers
STS-UV
STS-VIS
STS-NIR
M2
STS-UV
STS-VIS
40 mm x 42 mm x 24 mm
68 g
ELIS1024
350 - 800 nm
10 μs – 10 s
5 x 109(system, 10 s max integration),
~4600 single acquisition
> 1500:1 (maximum signal)
≤ 3 counts rms
600 g/mm
10, 25, 50, 100 or 200 μm
no
no
● 1.0 nm (10 μm slit)
● 1.5 nm (25 μm slit)
● 3.0 nm (50 μm slit)
● 6.0 nm (100 μm slit)
● 12.0 nm (200 μm slit)
≤ 0.25% at 590 nm
SMA 905
40 mm x 42 mm x 24 mm
68 g
ELIS1024
650 - 1100 nm
10 μs – 10 s
5 x 109(system, 10 s max integration),
~4600 single acquisition
> 1500:1 (maximum signal)
≤ 3 counts rms
600 g/mm
10, 25, 50, 100 or 200 μm
no
no
● 1.0 nm (10 μm slit)
● 1.5 nm (25 μm slit)
● 3.0 nm (50 μm slit)
● 6.0 nm (100 μm slit)
● 12.0 nm (200 μm slit)
≤ 0.25% at 850 nm
SMA 905
Light Meters
40 mm x 42 mm x 24 mm
68 g
ELIS1024
190 - 650 nm
10 μs – 10 s
9
5 x 10 (system, 10 s max integration),
Dynamic range
~4600 single acquisition
Signal-to-noise ratio > 1500:1 (maximum signal)
Dark noise
≤ 3 counts rms
Grating
600 g/mm
Slit
10, 25, 50, 100 or 200 μm
Detector collection
no
Order-sorting
yes
● 1.0 nm (10 μm slit)
● 1.5 nm (25 μm slit)
Optical resolution
● 3.0 nm (50 μm slit)
● 6.0 nm (100 μm slit)
● 12.0 nm (200 μm slit)
Stray light
≤ 0.25% at 450 nm
Fiber optic connector SMA 905
STS-NIR
Spectrometers
Engineering
Specifications
Dimensions
Weight
Detector
Wavelength range
Integration time
Accessories
http://www.unice-eo.com Email : [email protected]
514
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
Jaz Modular Spectroscopy
Multi-purpose Spectrometer
The Jaz spectrometer is a handheld analytical instrument that combines low-power
optical sensing and onboard computing power for custom applications ranging
from chlorophyll analysis in plants to process stream monitoring in industrial
environments. Thanks to its modular design, replaceable slits and multichannel
capabilities, Jaz delivers a great deal of flexibility in a monolithic instrument.
Beamprofilers
Features
*Powerful microprocessor and onboard display allow you to process and store data without a computer
* Full spectral analysis in a convenient, handheld unit
* Replaceable slit design provides extra level of configuration flexibility
* Ethernet connectivity plus SD card data storage capability make remote operation a snap
* Expansion up to 8 channels allows simultaneous, multi-point measurement
* Changeable display orientation makes operation convenient in both lab and field
* Up to 8 hours of battery life — ideal for field work
Light Meters
Spectrometers
M2
Make Jaz Your Own
Imagine having all the gear needed for optical sensing in
one, convenient form. That’s what we’ve done with Jaz while
blending the functionality of all its parts into a single, seamless
instrument. A basic Jaz includes the spectrometer module
and onboard DPU. All other modules are optional so you can
mix and match for the configuration that best handles your
application. Jaz has a home in the lab, the field, the process
line and anywhere you need reliable, accurate optical sensing.
Spectrometer
Physical
Detector
Wavelength range
Optical resolution
Signal-to-noise ratio
A/D resolution
Dark noise
Dynamic range
Integration time
Stray light
Sensitivity
Fiber optic connector
Electronics connector
Channels supported
OEM integration supported
Power options
Accessories
Inputs/Outputs
Communications and Software
515
L109 x W64 x H57 mm ; 352 g (JAZ-COMBO only)
Sony ILX511B linear silicon CCD array (200-1100 nm)
Grating dependent (extended-range grating available for 200-1025 nm coverage)
~0.3 - 10.0 nm FWHM
250:1 (at full signal)
16 bit
50 RMS counts
7
8.5 x 10 (system); 1300:1 for a single acquisition
870 μs to 65 seconds (20 s typical maximum)
<0.05% at 600 nm; <0.10% at 435 nm
75 photons/count at 400 nm; 41 photons/count at 600 nm
SMA 905 to 0.22 numerical aperture optical fiber
19-pin MHDMI connector; use ADP-MHDMI-RS232 adapter to interface to RS-232
Up to 8 spectrometers
Yes
Wall transformer (+5VDC); Power over Ethernet (Class III PoE provides 12 Watts); USB; integrated battery
module (JAZ-B); Solar charger and external batteries
Yes, 4 onboard digital user-programmable GPIOs
®
Computer interface
Onboard Blackfin microprocessor
Operating systems
Windows XP, Vista (32/64 bit), Windows 7 (32/64 bit); OS X and Linux when using the USB interface on PCs
Ethernet Module (optional)
IEEE 802.3-compliant 10/100; includes 2 GB SD card
Industrial Communications Module (optional) Interfaces (RS-232, RS-485); 4 analog I/O, 8 digital I/O
Trigger modes
Normal (free-running), Software, Synchronization and External Hardware
Strobe functions
Continuous, Single, Lamp Enable
Basic Jaz software (included) operates from DPU interface; SpectraSuite (separate purchase) acquires data
Operating software
from USB or Ethernet connection; Overture software also available
Irradiance measurement and other options available; application is loaded to an SD card and operates from
Applications software
DPU interface
Development software
Scripting program and API option for writing your own applications
Light Source Options
JAZ-UV-VIS (optional module)
JAZ-PX (optional module)
JAZ-VIS-NIR (optional module)
LEDs (optional module w/replaceable bulbs)
Compliance
Deuterium-Tungsten Halogen (210-1100 nm); lifetime is ~1,500 hours (recommended for UV absorbance)
Pulsed Xenon (190-1100 nm); lifetime is 4 x 108 flashes to 50% of initial intensity
Tungsten Halogen (360-1100 nm); lifetime is 500-10,000 hours depending on power setting
365 nm, 405 nm, 470 nm, 590 nm, 640 nm and White wavelength options
CE mark
RoHs
Yes (all modules)
Yes (all modules)
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
Red Tide Spectrometers
G
Power /
Energy Meters
Flexible, Low-Cost, Ideal for Education
Beamprofilers
USB-650 Red Tide spectrometers are ideal for teaching about UV and visible absorbance, reflectance and emission
applications. They are preconfigured, ready-to-use spectrometers that come in several different options.
M2
Physical
Dimensions
Weight
Detector
Type
Pixels
Pixel size
Pixel well depth
Sensitivity
Optical Bench
89.1 x 63.3 x 34.4mm
190 g
Design
Focal length
Entrance aperture
Fiber optic connector
Spectroscopic
Wavelength range
USB-650
USB-650-UV
USB-650-VIS-NIR
USB-650-UV-VIS
Optical resolution
Signal-to-noise ratio
A/D resolution
Dark noise
Spectrometers
Linear silicon CCD array
650 enabled pixels
14 μm x 200 μm
~62,500
75 photons/count @ 400 nm
f/4, asymmetrical crossed Czerny-Turner
42 mm input; 68 mm output
25 μm wide slit
SMA 905
Dynamic range
Stray light
Corrected linearity
Computer
Operating systems
Operating software (required)
Accessories
Integration time
Light Meters
350 - 1000 nm
200 - 880 nm
350 - 1000 nm
200 - 880 nm
Model dependent
250:1 (at full signal)
12 bit
3.2 RMS counts
8.5 x 107 (system)
1300:1 for a single acquisition
3 ms to 65 s (15 s typical max)
< 0.05% @ 600 nm
< 0.10% @ 435 nm
> 99%
Windows XP/7, Mac OS X and Linux w/USB port
SpectraSuite Spectroscopy Software
Overture Spectroscopy Software
Order Information
Model
USB-650
USB-650-UV
USB-650-UV-VIS
USB-650-VIS-NIR
Wavelength Range
350 - 1000 nm
200 - 880 nm
200 - 880 nm
350 - 1000 nm
Light Source
Sample Holder
Flexibility to Select Accessories
●
●
●
●
●
●
http://www.unice-eo.com Email : [email protected]
516
ChemUSB Spectrometer
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
M2
Beamprofilers
Smart Systems for Education
Accessories
Light Meters
Spectrometers
Our CHEMUSB4 Spectrometer Systems are the ideal combination of our USB-interface spectrometer technology and modular
accessories. This system is made up of our popular USB4000 spectrometer, a deuterium tungsten halogen or tungsten halogen
and LED light source and 1-cm cuvette holder.
Physical
CHEMUSB4-VIS-NIR
89.1 x 63.3 x 34.4mm
190 g
89.1 x 77.79 x 34.4 mm
200 g
89.1 x 63.3 x 34.4mm
190 g
40.7 x 88.8 x 34.1 mm
130 g
Type
Pixels
Pixel size
Pixel well depth
Toshiba TCD1304AP Linear CCD array
3648 pixels
8 μm x 200 μm
100,000 electrons
130 photons/count at 400 nm; 60 photons/
count at 600 nm
Toshiba TCD1304AP Linear CCD array
3648 pixels
8 μm x 200 μm
100,000 electrons
130 photons/count at 400 nm; 60 photons/
count at 600 nm
f/4, Asymmetrical crossed Czerny-Turner
42 mm input; 68 mm output
25 μm wide slit
f/4, Asymmetrical crossed Czerny-Turner
42 mm input; 68 mm output
25 μm wide slit
210 - 880 nm
1.0 nm FWHM
300:1 (at full signal)
16 bit
50 RMS counts
3.4 x 106 (system), 1300:1 for a single
acquisition
3.8 ms to 10 seconds
< 0.05% at 600 nm; < 0.10% at 435 nm
370 - 985 nm
1.0 nm FWHM
300:1 (at full signal)
16 bit
50 RMS counts
3.4 x 106 (system), 1300:1 for a single
acquisition
3.8 ms to 10 seconds
< 0.05% at 600 nm; < 0.10% at 435 nm
Deuterium tungsten
800 deuterium; 2,000 tungsten
Tungsten halogen and violet LED
2,000 (tungsten); 45,000 (LED)
Sensitivity
Optical Bench
Design
Focal length
Entrance aperture
Spectroscopic
Wavelength range
Optical resolution
Signal-to-noise ratio
A/D resolution
Dark noise
Dynamic range
Integration time
Stray light
Light Source/Sample Holder
Light source
Bulb life (hours)
517
CHEMUSB4-UV-VIS
Spectrometer dimensions
Spectrometer weight
Light source dimensions
Light source weight
Detector
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
EMBED Spectrometer for OEM Applications
G
Power /
Energy Meters
Beamprofilers
DNA Absorbance spectra using the EMBED spectrometer
M2
EMBED’s onboard electronics provide fundamental spectral preprocessing and multi-channel capability, as well as native SPI
communication support that establishes a direct, stable and fast interface with microcontrollers and industrial control systems.
EMBED’s design allows for extensive optical component customization to support a variety of applications, while maintaining
excellent quality in high volume production.
The standard EMBED configuration has selectable optical bench components – including entrance apertures, gratings, order
sorting filters and more – that make it possible to support low-light and high-throughput measurements. Its design provides
the EMBED exceptional thermal and environmental stability – attractive features for process and other applications where
temperature and environmental factors can affect measurements. In addition, the EMBED design supports multichannel
functionality, which enables users to make simultaneous or timed-gated measurements from multiple EMBED spectrometers
within a single system.
Power requirement
Supply voltage
A/D converter
Sony ILX511B
200 - 1100 nm
42 mm
68 mm (75 mm, 83 mm and 90 mm also available)
Multiple options within 200 - 1100 nm
5 µm, 10 µm, 25 µm, 50 µm, 100 µm or 200 µm
SMA 905
1 ms - 60 seconds
~0.3 - 10.0 nm (FWHM) (grating and slit dependent)
1300:1 (per pixel)
250:1 (single acquisition)
< 0.05% @ 600 nm; < 0.10% @ 435 nm
Accessories
Spectrometer
Detector
Detector range
Focal length (input)
Focal length (output)
Gratings
Entrance slit
Fiber connector
Spectroscopic
Integration time
Optical resolution
Dynamic range (typical)
Signal to Noise
Stray light
Electronics
EMBED Spectrometer
Light Meters
Engineering Specifications
Spectrometers
Configuration and Integration
100 mA @ 3.3 VDC
2.63-3.3 VDC
16 bit, 3.3 MHz
http://www.unice-eo.com Email : [email protected]
518
Beamprofilers
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
N.I.S.T. Certified UV Radiometer
* Designed to Detect UV Wavelengths from 250 – 380nm
* NIST Certified Sensors
* 9V Battery Provides up to 120 Hours of Operation
The NIST Certified UV Radiometer is ideal for inspecting ultraviolet light sources in a variety of
quality control applications.
The NIST Certified UV Radiometer is powered by a standard 9V battery for up to 120 hours of
operation. Three NIST certified interchangeable sensors are available to detect a wide range of
ultraviolet wavelengths from 250 – 380nm. The NIST Certified UV Radiometer’s range switch
allows the selection of three intensity ranges.
Conversion Rate
2.8 readings/sec
Display
Accuracy
Intensity Ranges (switchable)
3.5 digit LCD
±2%
Dimensions
Weight
Power Requirements
0 – 200mW/cm2
0 – 2000µW/cm2
0 – 200µW/cm2
157 x 51 x 91mm
0.3kg
9V Battery (not included)
M2
Sensor Specifications
Description
Calibration Wavelength
Wavelength Range
Accuracy
254nm
310nm
365nm
250-290nm
280-340nm
335-380nm
±5%
±5%
±5%
Shortwave Sensor
Midrange Sensor
Longwave Sensor
Spectrometers
N.I.S.T. UV Radiometer
Required
One Required
Description
Stock No.
UV Radiometer Unit
NIST Traceable Shortwave Sensor
NIST Traceable Midrange Senso
NIST Traceable Longwave Sensor
UNI88136
UNI88137
UNI88138
UNI88139
Accessories
Light Meters
N.I.S.T. Certified & Calibrated Light Meters
* Certified and Traceable to N.I.S.T. and NRC National Standards
* 0 – 400,000 Lux and 0 – 40,000 FC Switchable
* Portable with 9V Battery Included
The front light sensor contains a silicon photodiode with photopic and cosine correction. It has a
diameter of 10mm and is angled 70° away from the display face. Unit features one-button operation
with auto-ranging and autopower off after approximately 1 minute of downtime. User selectable
switch located in battery compartment. Comes complete with soft protective carrying case for safe
storage and transport. Backlit version available for taking measurements in dark environments.
Calibrations are performed by the manufacturer and are traceable to N.I.S.T. and NRC National
Standards. The photopic response of the calibrated sensor matches the CIE standard observer
curve response to within 1% of the reading when using a standard tungsten source at 2856K.
Calibration certificate included.
Measuring Range
Resolution
Display
Description
Lux/Footcandle Meter
Backlit Lux/Footcandle Meter
519
Lux: 0-400,000 Lux; Footcandle: 0-40,000 FC
Accuracy
Range: 0-375
Range: 375-4,000
Range: 4,000-400,000
10mm high digital LCD
Battery Life
Dimensions
Weight
Resolution: 0.1
Resolution: 1
Resolution: 10
Overall: ±5% of displayed value
Photopic: better than 1.0% of CIE curve
300 hours continuous use
141mmL x 59mmW x 25mmT
150g
Stock No.
UNI55593
UNI57476
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
N.I.S.T Certified Handheld Photometer
Power /
Energy Meters
* Portable, Easy to Use and Accurate
* 9V Battery Powered
* 0.05-7000 Lumens Measurement Sensitivity
* 4-Digit LCD Display Accuracy
Beamprofilers
This compact, lightweight instrument features a 2 inch diameter integrating sphere
that collects the total light entering the sphere measurement port. The sphere
interior is fabricated from a nearly-Lambertian (perfectly diffuse) reflectance material.
Portable and easy to operate, this compact system is designed for use in the field, laboratory,
or production floor. The instrument measures luminous flux from sources such as LEDs, small
lamps, and fiber illuminators. The instruments’ photopic filtered silicon detector provides maximum
sensitivity at low light levels. A calibration certificate traceable to N.I.S.T is included. Housing has
an M6 tapped hole for post mounting. The LED Adapter Kit, sold separately, includes entrance port
adapters for standard LED package sizes including 2mm, 3mm (T1), 4mm, 5mm (T1-3/4), 8mm
and 10mm.
Range Selection
Sphere Diameter
Auto Range
2.0-inch (50.8 mm)
Readout
Temperature Range
Entrance Port Diameter
0.5-inch (12.7 mm)
Size
Sphere Interior
Detector
Spectralon®
Photopic Filtered Silicon
Weight
4 digit, 2 x 8 LCD
0°C to 50°C
3.5 W x 3 H x 8.5 L inches
(8.9 W x 7.6 H x 21.6 L cm)
1.25 lbs. (0.57 kg.)
Handheld Photometer
LED Adapter Kit
Stock No.
UNI64817
UNI64818
Spectrometers
N.I.S.T Certified Handheld Photometer
M2
Ststem Properties And Performance
Description
G
Asteria Series - Compact, Fast Industrial Light Meter
Asteria is a high-speed measurement device suited for Luminance, Illuminance and
Flicker measurements. Based on the popular Admesy platform the Asteria is designed
for in-line use with integrated calculating power for easy implementation and high speed
measurement results in production settings. The Asteria is available in two configurations:
the lens based system is capable of measuring luminance (cd/m²) and flicker, its cosine
corrector configuration allows illuminance (lux) and flicker measurements.
* Absolute luminance or illuminance measurement according to the human eye: CIE1931
luminosity function
* All flicker measurement standards supported for LCD: Contrast, JEITA, VESA and Lighting:
percentage, index
* Measure high and low frequencies at the same time through a high sample rate and large memory size
* Trigger input and output for in line applications
* Windows, Linux, OSX and embedded systems compatible
* SCPI command interface for easy integration in other applications
* Supported in all major programming languages Labview / Labwindows / Visual Studio (C++, C#, VB)/ etc.
* USBTMC standard compliant
* Integrating- or sampling mode available
* 3 gain stages for every mode
* Autorange function
* User calibration function and pre-programmed calibration values
http://www.unice-eo.com Email : [email protected]
Accessories
Highlights
Light Meters
High-Speed Robust Luminance, Illuminance & Flicker Meter
520
Beamprofilers
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
Specifications
Interfaces
USB 2.0
RS 232
Trigger in & out
Power ratings
USB powered
USBMTC compliant, SCPI command set, full speed device
For PC and embedded purposes, using same command set as USB
5V compliant
Min voltage
4.75V
Typical voltage
5.00V
Max voltage
5.25V
Max current
220mA
System information
Photo detector
Spectral response
Measurement parameters
Optical systems
Measurement speed in sample mode
Operating Temperature
Silicon photo diode
Approximates CIE 1931 spectral luminous efficiency curve, fs value 8% typical
Luminance, illuminance, flicker (contrast, JEITA, VESA, Percentage, Index), Response time.
10mm lens system & cosine corrector
180,000 samples/second. Memory for 250,000 samples. For samples/delay versus total time see table below.
10 - 35°C
Mechanical dimensions
Size (H x W x D)
Weight
Mounting
69 x 31 x 93 mm
320g
12 M3 threat holes spread over four sides of Asteria
Optical system
1 cm² cosine corrector
Optics
Consine response
Lambertian
Sample mode signal frequency response
Parameter
Gain 1
Gain 2
Gain 3
Measurement Specification
f3db
DC – 20 kHz
DC – 50 kHz
DC – 120 kHz
Parameter
Range
Accuracy
Light level (lx)
Repeatability
Speed (samples/sec)
±4% of measured value.
Measured on halogen light
source with illuminance
level ~1800 lx
1
± 0.20%
4-10
Luminance (Y)
(integrating mode)
0.005 – 15,000lx
integration time
between 1ms and
5 seconds
10
50
>1500
± 0.10%
± 0.05%
± 0.03%
10-20
20-100
20-100
± 0.20%
4-10
1 - 150,000 cd/m²
±4% of measured value.
Measured on halogen light
source with illuminance
level ~1800 lx
10
Luminance (Y)
(sampling mode)
50
200
>1500
± 0.10%
± 0.05%
± 0.03%
10-20
20-100
20-100
Percentage Flicker
1 - 150,000cd/m²
Flicker Index
1 - 150,000 cd/m²
±1%
Flicker frequency: 100Hz AC/DC 10% sine wave @100 lux
± 0.01
Flicker frequency: 100Hz AC/DC 10% sine wave @ 100 lux
Accessories
Light Meters
Spectrometers
M2
Asteria Cosine Corrector Specifications
521
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
Accessories‧ 視效函數偵測器 / Photometric
Power /
Energy Meters
基本原理
利用偵測器與濾光片結合後的響應度曲線,來模擬人眼在週遭
環境亮度大於 2cd/m 2 時,對各別波長的入射光的反應曲線,
也就是 CIE 配色函數 (Color Matching Function),又稱為視效函數
曲線 (V-Lambda Curve),可用於量測照度 (lx)、光強度 (cd)、光
通量 (lm) 等。
型號:HPD001W
應用範圍
Beamprofilers
產品特色
*研發過程中均以國家標準實驗室的原級標準為依據。
*與知名國外市售產品比較,在藍光部份的曲線誤差明顯降低。
G
相對響應度比較圖
* LED 輝度測量
*積分球輸出光源輝度監控
產品規格
ኅถ
F1’: ᇄCIEԢጣ‫ޟ‬৯౴
6.84%
8.92%
3.72%
Spectrometers
OxxxxxM
UDT 10AP-1(OSI)
‫׉‬ඏӎႫ-HPD001W
M2
*與 CIE 配色函數的曲線誤差:
F1' ≦ 4% (Typical)
*絕對響應:≧ 33nA/1x (Typical)
*Window Φ12mm, BNC type Connector
輻射功率偵測器 / Power Sensor
Light Meters
產品特色
*研發過程中均以國家標準實驗室的原級標準為依據
*與知名國外市售產品比較,曲線平坦範圍 410nm ~ 970nm
優於 10DF 的 500nm ~ 970nm
產品規格
型號:PPD001W
應用範圍
Accessories
* Electrical characteristics Typ. T=25℃
* Optical characteristics Typ. T=23±1.5℃
* Area:10*10mm2
相對響應度
*光源在 700~1000nm 輸出功率量測
http://www.unice-eo.com Email : [email protected]
522
Spectrometers
M2
Beamprofilers
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
OVAL 光纖連續式可調光衰減器 / Fiber Optic Linear Variable Attenuator
漸進式
*兩條光纖間控制光的穿透率。
* SMA905 接頭和光纖連接。
*輸入 / 輸出端各有一準直透鏡 (CL-UV-R) 結合,增加光強度。
*準直透鏡適合波長範圍紫外光到近紅外 (200nm~2000nm)。
*用手轉動輪盤可獲得 0% ~ 100% 不同穿透率。
*內部螺旋式的設計,確保大多數平行輸入的光都能通過。
*當轉動到定位時,背面有一小螺絲旋鈕,具有固定功能。
*側邊和底部附有磁鐵,適合吸附在具有磁性基座上如光學桌。
*底部有 M6 (1/4-20) 螺紋牙孔可固定在支撐棒或其他元件上。
*選擇配件 OVAS-B 滑動底板 ( 另售 ),使用更具彈性。
* Control the ligh transmission between two fibers.
* An opto-mechanical device couples to fibers via SMA905 connectors.
* Collimating lens (CL-UV-R) on input/output both ports to collect light source.
* Attenuation wavelength range 200nm to 2000nm.
* Manual adjustment on mechanical wheel for different attenuation
performance.
* Gyroidal design on the wheel allows most of the light source having a
collimating lens at its aperture.
* A thumbscrew on the out port for locking purpose when wheel is
positioned.
* Magnets on the side and bottom can attach to magnetism optical table.
* M6 (1/4-20) thread on the bottom for posts or components mounting.
* Accessory OVAS-B slide base (not including) provides more flexible for
mounting.
OVAS-B
滑動底板
࠮ဴ
Џψ
१໔
OVAL
L40 x H40 x D24mm
110 g
350
~ 800nm,ϴ৯ ±1.5%
ᐇհ‫ߝݰ‬
800 ~ 2000nm,ϴ৯ ±4.0%
௥ᓞ
SMA905
Accessories
Light Meters
產品規格
523
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
OVAL+OVAS-B
示意圖
Light Analysis : Energy & Spectrum
OVAS 光纖階梯式可調光衰減器 / Fiber Optic Step Circular Attenuator
Power /
Energy Meters
步進式
Beamprofilers
*兩條光纖間控制光的穿透率。
* SMA905 接頭和光纖連接。
*輸入 / 輸出端各有一準直透鏡 (CL-UV-R) 結合,增加光強度。
*準直透鏡適合波長範圍可見光到近紅外 (350nm~2000nm)。
*指撥式手動調整不同衰減片可準確達到定位。
*內部配有八個 12.5mm 孔徑,除全開和全關外,客戶可依需求
配置六個不同穿透率的衰減片。
*提供九種不同穿透率的衰減片予客戶選擇。
*當轉動到定位時,背面有一小螺絲旋鈕,具有固定功能。
*轉盤上數字刻字方便記錄各位置衰減片的穿透率。
*側邊和底部附有磁鐵,適合吸附在具有磁性基座上如光學桌。
*底部有 1/4(M6) 螺紋牙孔可固定在支撐棒或其他元件上。
*選擇配件 OVAS-B 滑動底板 ( 另售 ),使用更具彈性。
M2
Spectrometers
OVAS-B
2-CL-UV-R
68.8
NOMINAL
27
12
24
54
Accessories
L54 x H54 x D24mm
200 g
350 ~ 800nm,ϴ৯ ±1.5%
ᐇհ‫ߝݰ‬
800 ~ 2000nm,ϴ৯ ±4.0%
௥ᓞ
SMA905
Locking function
9
Џψ
१໔
OVAS+OVAS-B
示意圖
54
產品規格
滑動底板
Light Meters
* Control the ligh transmission between two fibers.
* An opto-mechanical device couples to fibers via SMA905 connectors.
* Collimating lens (CL-UV-R) on input/output both ports to collect light
source.
* Attenuation wavelength range 350nm to 2000nm.
* Manual adjustment on mechanical wheel for different attenuator filter.
* 8-diameter 12.5mm aperture on the internal wheel. User depends on
his own demand to fit 6-different neutral density filters except always
open and close.
* Offering 9-different neutral density filters for selection.
* A thumbscrew on the out port for locking purpose when wheel is
positioned.
* Numbers engraved on the wheel to indicate the norminal transmission.
* Magnets on the side and bottom can attach to magnetism optical table.
* 1/4-20(M6) thread on the bottom for posts or components mounting.
* Accessory OVAS-B slide base (not including) provides more flexible for
mounting.
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產品型號
OVAS - □□□□□□
Ex: 型號:OVAS-135678-M
平均穿透率 (%)
1 = 0.1%
2 = 1%
3 = 5%
4 = 10%
5 = 25%
6 = 40%
7 = 50%
8 = 60%
9 = 70%
描述:步進式
平均穿透率分別為 0.1%,5%,25%,40%,50%,60%
兩側具有磁鐵
* 提供九種不同平均穿透率,可挑選六種
** 可接受其他平均穿透率
http://www.unice-eo.com Email : [email protected]
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積分球 / Integrating Sphere
Beamprofilers
Power /
Energy Meters
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Light Analysis : Energy & Spectrum
UIS-ADP-SMA
產品介紹
Light Meters
Spectrometers
M2
使用積分球 (Integrating Sphere) 來量測光源的輻射功率或是光通量等,是在光學量測領域中十分常見的技術與應用。
積分球本身為一空心球體,球體內壁表面塗布有高漫射特性的材料。入射光在球體內經過多次的反射與漫射之後,
會形成均勻的光線散佈在球體內。然後藉由在球體上的偵測器孔或射出孔,即可進行光源特性的量測。本公司提
供一系列的積分球產品,可針對應用或產品選擇合適之積分球形式與尺寸大小。並提供客製化的服務,以滿足任
何光的量測應用。
產品應用
*光源特性量測:光譜、色座標、色溫、主波長、峰波長、CRI、
流明值、飽和度、光通量
*材料特性量測:散射、反射、穿透、折射
*濾光片的穿透率反射率量測
*均勻光源
*光收集器
產品特色
*提供多種尺寸 (0.15m ~ 2m)
*校正燈可以追溯美國國家標準實驗室 (NIST)
*搭配光譜儀,可以量測:CIE 的座標如 ( x, y, u', v' )、流明值、
色溫、主波長、峰波長、飽和度、CRI ... 等
*可搭配 SMA 輸出孔蓋板 UIS-ADP-SMA 使用 ( 選配 )
*模組化設計,可依顧客需求更改
3 孔積分球之結構及尺寸
訂購資訊
Accessories
θ θ
Outside Dia. (mm)
(Ø)
50
100
150
200
300
500
Input Port Dia. (mm)
Cap Ring (C)
Apeature (A)
14
C+6mm
14, 20, 30, 45
C+6mm
14, 20, 30, 45, 50
C+6mm
14, 20, 30, 45, 50, 80
C+6mm
14, 20, 30, 45, 50, 80
C+6mm
14, 20, 30, 45, 50, 80, 150
C+6mm
Available Angle
(˥)
X
45
56
X
30
45
X
60
30
45
X
60
30
45
X
60
30
45
X
60
30
45
X
60
產品型號 UIS- □□□ - □□□ - □ - □□ - □□□
Diameter
Input Port
Angle
Wavelength
050 = 50mm
100 = 100mm
150 = 150mm
200 = 200mm
250 = 250mm
300 = 300mm
500 = 500mm
014 = 14mm
020 = 20mm
030 = 30mm
045 = 45mm
050 = 50mm
080 = 80mm
150 = 150mm
30 = 30° / 30°
45 = 45° / 45°
56 = 0° / 56°
60 = 60° / 60°
EUV = 260 - 1100nm
VIS = 380 - 1100nm
Cap Ring
R = Ring
N = None
Ex: 型號:Example: UIS - 050 - 014 - N - 30- VIS
描述:積分球外徑尺寸為 50mm, 入光口尺寸為 14mm 且不含固定環 ,
輸出端為 Y 型各 30 度夾角 , 兩輸出端夾角為 60 度 , 波長範圍為 3801100nm.
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TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
Collimating Lenses
Ocean Optics modular spectrometers and accessories can be configured for absorbance, transmission, reflectance, fluorescence, emission
or scattering applications. We offer nearly 500 sampling accessories for free space measurements, solid sampling and liquid sampling.
Probes and accessories for Raman analysis are also available. In many setups, sampling accessories collect light or excitation energy that
interacts with the sample and is transmitted to the spectrometer. Sampling accessories also include fixtures such as collimating lenses
that provide specific sampling geometries.
Four of our sampling accessories allow users to control FOV and aperture.
Item
Image
Optical Fiber
FOV
Aperture
25°
Same as fiber diameter
up to 45°
3.0 mm
Cosine Corrector
180°
3.9 mm
Integrating Sphere
360°
25 mm
Spectrometers
What’s Your Field of View?
Four of our devices are used to control field of view (FOV) and aperture:
1. Optical Fiber (25° FOV, aperture = fiber diameter) 2. Collimating Lens (0° - 45° FOV, aperture = 3 mm)
3. Cosine Corrector (180° FOV, aperture = 3.9 mm) 4. Integrating Sphere (360° FOV, aperture = 25 mm)
Ordering Information
Item
Diameter Focul Length
M2
Collimating Lens
Beamprofilers
Field of View (FOV)
Power /
Energy Meters
The Widest Range of Accessories
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Range
Connector
200-2000 nm
SMA 905, 6.35-mm ferrule,
3/8-24 external thread
5 mm
12.5mm
Fused Silica Dynasil
CL-VIS-ACR
(Achromatic
Doublet Lens)
5 mm
12.5mm
N-SSK8 / N-SF56
CL-UV-DA
6 mm
12mm
Fused Silica Dynasil
200-2000 nm
SMA 905, 1/4-36 internal
thread
74-90-UV
5 mm
10mm
Fused Silica Dynasil
200-2000 nm
SMA 905, 6.35-mm ferrule,
3/8-24 external thread
COL-UV-30
30mm
30mm
Fused Silica Suprasil
200-2000 nm
SMA 905, 6.35-mm ferrule,
3/8-24 external thread
84-UV-25
25.4mm
100mm
Fused Silica Dynasil
200-2000 nm
SMA 905, 6.35-mm ferrule,
3/8-24 external thread
SMA 905, 6.35-mm ferrule,
350-2000 nm
3/8-24 external thread
Coating:400-700nm
http://www.unice-eo.com Email : [email protected]
Accessories
CL-UV-R
Light Meters
Lens Material
526
Sampling Accessories
Cosine Correctors
Opticl diffusers collect
light from 180° fov
WS-1
Reflectance Standards
STAN Series
Reflectance Standards
FOIS-1
Integrating Sphere
ISP-REF
Integrating Sphere
ISP-R Series
Integrating Spheres
ISP-I
Integrating Spheres
CUV-UV
Cuvette Holder
CUV-FL-DA
Cuvette Holder
CUV-ALL-UV
Cuvette Holder
Spectrometers
M2
Beamprofilers
Power /
Energy Meters
G
Light Analysis : Energy & Spectrum
FHSA-TTL
Filter and Cuvette Holder
Adjustable Collimating Lens
and cuvette Holder
In-Line Filter Holders for
74-ACH Lens Holder
Fibers
Adjustable Collimating Lens
Holder
Accessories
Light Meters
FHS-UV
In-Line Filter Holder
ACH-CUV-VAR
Lens Holder
LED-PS
CUV-QPOD
Power Supply-Controller Temperature Controlled Cuvette
Holders
STAGE
Single-Point Reflection Stage
Process Cross Flow Cells
FIA Series Microvolume
Longpass Flow Cells
Flow Cells
Low-Concentration Absorbance Process Monitoring Industrial
Environments
Z-Type Flow Cells for Absorbance
Measurements
Measurements
527
STAGE-RTL-T
Reflection-Transmission Stage
FIA Series Fluorescence
Flow Cells
Chemically Resistant Cells for
Fluorescence Applications
CVD Series
Plastic Cuvettes
USB-ISS Series
Illuminated Cuvette Holders
TEL : (03)462-6569 (桃園-總公司) / (04)2261-0357 (台中) / (06)208-6651 (台南)
Light Analysis : Energy & Spectrum
MEMO
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Energy Meters
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http://www.unice-eo.com Email : [email protected]
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