gentec-EO IS Series Calibrated Laser Power Detectors for High Accuracy Measurement User Manual
- June 5, 2024
- gentec-EO
Table of Contents
User Manual
IS series Integrating Sphere for laser power measurement
WARRANTY
First Year Warranty
The Gentec-EO integrating sphere series carries a one-year warranty (from date
of shipment) against material and/or workmanship defects, when used under
normal operating conditions. The warranty does not cover damages related to
battery leakage or misuse.
Gentec-EO Inc. will repair or replace, at Gentec-EO Inc.’s option, any
integrating sphere that proves to be defective during the warranty period,
except in the case of product misuse.
Any attempt by an unauthorized person to alter or repair the product voids the
warranty.
The manufacturer is not liable for consequential damages of any kind.
Contacting Gentec Electro-Optics Inc.
In case of malfunction, contact your local Gentec-EO distributor or nearest Gentec-EO Inc. office to obtain a return authorization number. The material should be returned to:
Gentec Electro-Optics, Inc.
445, St-Jean-Baptiste, Suite 160
Québec, QC
Canada, G2E 5N7
Tel: 418-651-8003
Fax: 418-651-1174
E-mail: service@gentec-eo.com
Website: gentec-eo.com
SAFETY INFORMATION
Do not use the integrating sphere if the device looks damaged, or if you
suspect that the integrating sphere is not operating properly.
Note:
This equipment has been tested and found to comply with the limits for a Class
A digital device, pursuant to part 15 of the FCC Rules. These limits are
designed to provide reasonable protection against harmful interference in a
residential installation. This equipment generates, uses, and can radiate
radio frequency energy. If not installed and used in accordance with the
instructions, it may cause harmful interference to radio communications.
However, there is no guarantee that interference will not occur in a
particular installation. If this equipment does cause harmful interference to
radio or television reception, which can be determined by turning the
equipment off and on, try to correct the interference by taking one or more
of the following steps:
- Reorient or relocate the receiving antenna.
- Increase the distance between the equipment and receiver.
- Connect the equipment to an outlet that is on a different circuit than the receiver.
- Consult the dealer or an experienced radio/TV technician for help.
Caution:
Changes or modifications not expressly approved in writing by Gentec-EO Inc.
may void the user’s authority to operate this equipment
Integrating sphere IS series – Power detectors
1.1. INTRODUCTION
The Gentec-EO integrating sphere is a spherical cavity that holds our
proprietary highly reflective coating.
The coating is used to create multiple diffuse reflections inside the sphere.
After these reflections, a small sample of the diffused light is captured by
the silicon sensor. By using a silicon sensor, the response time is as fast
as a photodiode. The integrating sphere offers multiple advantages, such as:
high damage thresholds and higher measurable power than a standard photodiode.
The integrating sphere detector is also less sensitive to: beam dimensions,
intensity profile, angle of incidence, beam divergence and polarization.
Gentec-EO integrating spheres have a NIST-traceable calibration for the entire
spectral range. The calibration comes with a temperature compensation
calibration for every sphere to ensure accurate and stable measurements
through time.
Finally, the Gentec-EO integrating sphere works with PC-Gentec-EO software,
the same way as other Gentec-EO detectors
1.2. POWER DETECTOR CONNECTORS
1.2.1. Integra USB (INT)
The Integra USB connector is an integrated PC interface that allows to plug
the head directly into a computer. It has the same serial commands as the
MAESTRO and a few extra ones (see the PC-GentecEO user manual) and uses the
same PC-Gentec-EO software. For additional information, consult the Integra
user manual.
Figure 1: Layout Drawing, Integra USB (INT).
1.2.2. Integra RS-232 (IDR)
The Integra IDR connector is an integrated PC interface that allows you to
communicate with the detector head through serial commands. The communication
protocol is RS-232 and the connector is a DB-9. For additional information,
consult the Integra manual
Figure 2: Layout Drawing, Integra IDR (RS-232).
1.2.3. Cooling water
The fluid used to cool the IS50A-1KW-RSi should be clean water. The IS50A is
equipped with ¼’’ OD plastic fittings. Is must be used with ¼’’ plastic semi-
rigid tube. The fittings are not compatible with copper of stainless steel
tubes.
In the case water is not available for cooling, other fluids can be used
following a few rules:
-
The heat capacity of the fluid must be equivalent to the heat capacity of water. Low heat capacity would result in a lack of heat extraction and could cause overheating of the detector.
-
The fluid must be compatible with bare aluminum and anodize aluminum. Incompatible fluids could result in damage to the cooling circuit.
For water as a cooling fluid, we recommend the following parameters: -
The resistivity of the water must be over 100 kOhm-cm.
-
Distilled water can be used, but it is not recommended to use highly deionized ultra-pure water since the water cavity is not completely inert.
-
If an algaecide must be used in the chiller, we recommend Optishield Plus or equivalent.
-
If chloride is present in the system, the concentration should not exceed 25 PPM and the pH maintained between 6.0 to 8.0.
The cooling water can be between 15°C and 25°C AND must always remain above the dew point. The ideal set point is 20.0°C, where the integrating sphere is calibrated.
1.3. INTEGRATING SPHERE IS SERIES SPECIFICATIONS
The Gentec-EO integrating sphere is a laser power detector with two possible outputs. The first output option is with the USB Integra PC interface. The second output option is with the RS-232 Integra PC interface.
The following specifications are based on a one-year calibration cycle, an operating temperature of 15 to 28°C and a relative humidity not exceeding 80%. The storage temperature should be between 10 to 65°C with a relative humidity not exceeding 90%.
The specifications for the integrating sphere IS12L-9S-RSi are presented below.
Table 1: IS12L-9S-RSi detector specifications.
| 12L-9S-RSi-INT-DO| IS12L-95-RSi-IDR-DO
---|---|---
Integrated PC interface| Integra (USB)| Integra (RS-232)
Sensor|
Silicon
Aperture|
0 12 mm
Sphere inner diameter|
50 mm
Spectral range|
340 to 1100 nm
Calibrated spectral range|
400 to 1070 nm
Uncertainty|
± 2.5% @ 1070 nm
± 3.5%@500-1069 nm
± 5.0% @ 400-499 nm
Min repetition rate|
10 kHz
Maximum power|
9 W
Typical back reflections’|
—6 %
Linearity with power|
± 1%
Maximum divergence|
10° (half angle)
Maximum incidence angle|
± 10°
Repeatability|
± 0.5%
Damage threshold|
2 kW/cm² @ 1070 nm — CW
400 ml/cm² @1070 nm — 7 ns
Noise equivalent power|
1µW @ 1070 nm
1 For the integrating sphere IS12L-9S-RSi, the backscattered power (also
known as back reflections) is concentrated in a cone with an apex located at
the back of the sphere. The angle of the backscattered cone is 15° (7.5° half
angle). There is no back reflection outside of the cone area in front of the
optical aperture.
The typical backscattering is calculated for a beam of 50% of the aperture
diameter (6 mm for IS12L) at 1/e² .
Resolution | 10 pW @ 1070 nm |
---|---|
Sampling rate | 15 Hz (default) or 6.8 Hz (selectable) |
Response time (0-95%), typical | < 0.5 sec |
Detector dimensions | 78 mm x 66 mm x 66 mm |
Weight | 0.7 kg |
Cable length | 2 m |
Mounting holes | M4 |
8 -32
Fiber adapter compatibility| Thread for SM1 fiber adaptor
The beam diameter should be between 10% and 90% of the aperture diameter.
The specifications for the integrating sphere IS50A-1KW-RSi are presented
below.
Table 2: IS50A-1KW-RSi detector specifications.
| ISSOA-1KW-RSI-INT-DO| ISSOA-1KW-RS i-I DR-DO
---|---|---
Integrated PC interface| Integra (USB)| Integra (RS-232)
Sensor| Silicon
Aperture| 0 50 mm
Sphere inner diameter| 100 mm
Spectral range| 340 to 1100 nm
Calibrated spectral range| 400 to 1070 nm
Uncertainty| ± 2.5 % @ 1070 nm
± 3.5 % @ 500 — 1069 nm
± 5.0 % @ 400 — 499 nm
Min repetition rate| 10 kHz
Maximum power| 1000 W
Typical back reflections2| — 12.5
Linearity with power| ± 1 %
Maximum divergence| 10° (half angle)
Maximum incidence angle| ± 25° for beam diameter < 0 12mm
± 5° for beam diameter > 0 12mm
Repeatability| ± 0.5
Damage threshold| 5 kW/cm2 @ 1064 — 1070 nm — CW
400 mJ/cm2 @ 1064 — 1070 nm — 7 ns
Noise equivalent power| 10 LLW @ 1070 nm
Resolution| 100 pW @ 1070 nm
Sampling rate| 15 Hz (default) or 6.8 Hz (selectable)
Response time (0-95%), typical| < 0.2 sec
Detector dimensions| 140 mm (W) x 127 mm (H) x 115 mm (D)
Weight| 4 kg
Cable length| 2 m
2 For the integrating sphere IS50A-1KW-RSi, the backscattered power (also
known as back reflections) isconcentrated in a cone with an apex located at
the back of the sphere. The angle of the backscattered cone is 30° (15° half
angle). There is no back reflection outside of the cone area in front of the
optical aperture.
The typical backscattering is calculated for a beam of 50% of the aperture
diameter (25 mm for IS50A) at 1/e².
Mounting holes | M6 ¼ – 20 |
---|---|
Fiber adapter compatibility | Thread for SM2 fiber adaptor |
Detector cooling | Water |
Recommended cooling flow rate | 3 LPM |
Minimum cooling flow rate | 2 LPM |
Cooling temperature | 15 – 25 °C |
Cooling maximum input pressure | 60 psi / 413 kPa |
The beam diameter should be between 10% and 90% of the aperture diameter.
1.4. INTEGRATING SPHERE IS HEAD DIMENSIONS
The integrating sphere IS12L-9S-RSi has overall dimensions of 78mm wide, 66mm
high and 66mm deep.
Figure 3: Layout drawing, IS12L-9S-RSi-INT/IDR-D0.
The 8-32 imperial threads, centered on the top, bottom and right views are
compatible with the 2in x 3in stands (STAND-D-233, STAND-S-233). The other
threads are all metric and of dimensions M4x0.7mm.
Figure 4: Layout drawing,
IS50A-1KW-RSi-INT/IDR-D0.
The ¼-20 imperial threads, centered on the top and bottom views are compatible with the 4in x 4in stands (STAND-D-443, STAND-S-443, STAND-S-443-C). The other threads are all metric and of dimensions M6x1.0mm.
1.5. INTEGRATING SPHERE TYPICAL SPECTRAL RESPONSE
The spectral response of the integrating sphere is similar to a photodiode.
For the integrating sphere IS12L-9S-RSi, the spectral response is showed in
the figure below.
For the integrating sphere IS50A-1KW-RSi, the spectral response is showed in the figure below.
Quick start procedure
The integrating sphere comes with the Integra PC interface. For the USB version (INT), INTEGRA USB drivers will install a virtual COM port on your PC. Please download the USB driver at: https://www.genteceo.com/resources /download-center.
- Do not connect the INTEGRA to your computer
- Follow the installation steps until you have the message INTEGRA ready to use.
- You can now connect the INTEGRA and install/use the software PC-Gentec-EO.
After connection is made with PC-Gentec-EO, the software automatically recognizes all integrating sphere heads. Then, the software downloads all custom technical data for the detector from the Integra PC interface. The data includes sensitivity, model, serial number, version and wavelength correction factor.
To start using your integrating sphere, you should:
-
Install the head on its optical stand.
-
Connect the Integra USB directly on the PC. If you want to use the Integra IDR version (RS-232) with your PC, use a RS-232 to USB converter.
-
The PC-Gentec-EO software will default to autoscale and lowest wavelength.
-
Select the proper wavelength. If known, select the proper power scale (if not, use autoscale).
-
Remove the detector cover.
-
Align the detector into the laser beam path.
-
For the most accurate measurements, the beam should be centered on the optical aperture and the same diameter as written on the calibration certificate. Also, the beam divergence and the beam angle of incidence should be within specification.
-
Block the laser radiation to the detector.
-
To rest the zero, wait until the reading has stabilized.
The power read when no laser beam is incident on the detector may not be exactly zero if the detector or monitor is not thermally stabilized. Warm-up until the reading without laser power is stable for several minutes. Half an hour warm-up is recommended for measuring low powers. -
Press the ZERO button in PC-Gentec-EO. By doing that you are removing the power compensation from background illumination. If you don’t want to remove the contribution from background illumination, but the detector cover, press ZERO and then, remove the detector cover.
-
Apply the laser beam to the detector head.
-
PC-Gentec-EO displays the laser beam average power.
User interface
Please refer to the PC-Gentec-EO manual for more information concerning the user interface. The manual can be downloaded on our website at <https ://gentec-eo.com/downloads/specsheets-manuals.>
Damage to the optical absorber material
Damage to the optical absorber material is usually caused by exceeding the manufacturer’s specifications such as:
– Incident average power density
– Incident pulse energy density
Refer to the specifications in section 1.3. INTEGRATING SPHERE IS SERIES
SPECIFICATIONS.
Damage may also be caused if the absorber surface is contaminated. A slight
discoloration of the coating does not affect the calibration.
In the event of significant damage to the coating, contact your local Gentec-
EO representative for information on repair and recalibration. See page i
Contacting Gentec lectro-Optics Inc.
DECLARATION OF CONFORMITY
Application of Council Directive(s):| 2014/30/EU EMC Directive tests in
compliance with FCC part 15 subpart B
---|---
Manufacturer’s Name:
Manufacturer’s Address:| Gentec Electro Optics, Inc.
445 St-Jean Baptiste, suite 160 , Canada G2E 5N7
Representative’s Name:
Representative’s Address:| Laser Component S.A.S
45 bis Route des Gardes 92190 Meudon (France)
Type of Equipment:
Model No.:
Year of test & manufacture:| Laser Power/Energy Meter INTEGRA V2 2016
Standard(s) to which Conformity is declared: EN61326-1 (2013) Emission generic standard
Test Name Standards | Test Specifications | Performance Criterion | Results |
---|
Conducted Emissions
FCC part 15 (2013) subpart B| Class A 150kHz-30MHz| N/A| Pass
Radiated Emissions
FCC part 15 (2013) subpart B| Class A 30MHz- I GHz| NA| Pass,
Conducted Emissions CISPRII (2009) Al (2010)| Group I – class A 150kHz-30MHz
Pass| N\ A| Pass
Radiated Emissions CISPRI I (2009) Al (2010)| Group 1 – class A 30MHz-IGHz
N A| | Pass
Harmonic Current Emission Limits EN61000-3-2 (2006)
Al (2009) A2 (2009)| Class A| N A| Pay.
Voltage Fluctuations and Flicker Limitations EN6 1000-3-3 (2008)| Observation
period for Pst : 10 min Observation period for Plt : 120 min| N/A| Pass
Electrostatic Discharge Immunity IEC61000-4-2 (2008)| Contact : ±-4kV Air :
8kV| B| Pass
Radiated Electromagnetic Field Immunity IEC610004-3 (2006)
Al (2007) A2 (2010)| 80MHz-1000MHz : I OV/m 1.40Hz-20Hz : 3V/m 2GHz-2.7GHz :
1V/m| A| Pass
Electrical Fast Transient Immunity IEC61000-4-4 (2012)| Power : +.2kV / 5kHz
I/O Ports : ±IkV / 5kHz
Communication Ports : &IkV / 5kHz| B| Pass
Surge Immunity IEC61000-4-5 (2005)| Power : ±2kV L-PE / ±I kV L-L I/O Ports :
N/A
Communication Ports : N/A| B| Pass
Test Name
Standards| Test Specifications| Performance
Criterion| Results
---|---|---|---
Immunity to Conducted Disturbances,
Induced by Radio-Frequency Fields IEC61000-4-6 (2008)| Power : 3V
I/O Ports : 3V
Communication Ports : 3V| A| Pass
Voltage Dips, Short Interruptions and
Voltage Variation Immunity on AC Input IEC61000-4-11 (2004)| Voltage dips :
0% during 1 cycle
40% during 10 cycles
70% during 25 cycles
Short interruptions :
0% during 250 cycles| MU U U| Pass
I, the undersigned, hereby declare that the equipment specified above conforms
to the above Directive(s) and Standard(s)
Place: Quebec (Quebec)
Date : July 15, 2016
UKCA DECLARATION OF CONFORMITY
Application of Council Directive(s):| 2014/30/EU EMC Directive
tests in compliance with FCC part 15 subpart B
---|---
Manufacturer’s Name:
Manufacturer’s Address:| Gentec Electro Optics, Inc.
445 St-Jean Baptiste, suite 160 , Canada G2E 5N7
Representative’s Name:
Representative’s Address:| Laser Component S.A.S
45 bis Route des Gardes 92190 Meudon (France)
Type of Equipment:
Model No.:
Year of test & manufacture:| Laser Power/Energy Meter
INTEGRA V2
2016
Standard(s) to which Conformity is declared: EN61326-1 (2013) Emission generic standard
Test Name
Standards| Test Specifications| Performance
Criterion| Results
---|---|---|---
Conducted Emissions
FCC part 15 (2013) subpart B| Class A
150kHz-30MHz| N/A| Pass
Radiated Emissions
FCC part 15 (2013) subpart B| Class A 30MHz- I GHz| N/A| Pass
Conducted Emissions CISPR I I (2009) Al (2010)| Group 1 – class A
150kHz-30MHz| N/A| Pass
Radiated Emissions CISPR11 (2009) Al (2010)| Group I – class A 30MHz- I GHz|
N/A| Pass
Harmonic Current Emission Limits EN61000-3-2 (2006) Al (2009) A2 (2009)| Class
A| N/A| Pass
Voltage Fluctuations and Flicker Limitations EN61000-3-3 (2008)| Observation
period for Pst : 10 min Observation period for Plt : 120 min| N/A| Pass
Electrostatic Discharge Immunity IEC61000-4-2 (2008)| Contact : ±-4kV Air :
±8kV| B| Pass
Radiated Electromagnetic Field Immunity IEC61000-4-3 (2006)
Al (2007) A2 (2010)| 80MHz-1000MHz : I OV/m I.4GHz-2GHz : 3V/m 2GHz-2.7GHz :
1V/m| A| Pass
Electrical Fast Transient I mm un ity I EC61000-4-4 (2012)| Power : ±2kV /
5kHz
I/O Ports : ± ‘kV / 5kHz
Communication Ports : *I kV / 5kHz| B| Pass
Surge Immunity IEC61000-4-5 (2005)| Power : +.2kV L-PE / &IkV L-L I/O Ports :
N/A
Communication Ports : N/A| li| Poss.
Test Name
Standards| Test Specifications| Performance
Criterion| Results
---|---|---|---
Immunity to Conducted Disturbances,
Induced by Radio-Frequency Fields IEC61000-4-6 (2008)| Power : 3V
I/O Ports : 3V
Communication Ports : 3V| A| Pass
Voltage Dips, Short Interruptions and
Voltage Variation Immunity on AC Input IEC61000-4-11 (2004)| Voltage dips :
0% during 1 cycle
40% during 10 cycles
70% during 25 cycles
Short interruptions :
0% during 250 cycles| B
C
C
C| Pass
I, the undersigned, hereby declare that the equipment specified above conforms
to the above Directive(s) and Standard(s)
Place: Quebec (Quebec)
Date : December 01, 2021
APPENDIX A: WEEE DIRECTIVE
RECYCLING AND SEPARATION PROCEDURE FOR WEEE
This section is used by the recycling center when the detector reaches its end
of its line. Breaking the calibration seal or opening the detector head of
monitor case will void the warranty.
The complete detector contains:
1 integrating sphere with Integra PC interface
1 calibration certificate
SEPARATION
Paper: Calibration certificate
Plastic: Aperture cap (IS12L), Integra case, water fittings (IS50A)
Viton: O-Ring (IS50A)
Metal: Integrating sphere case, screws, aperture cap (IS50A)
Wires: Cable from head to Integra, USB cable
Printed circuit board: inside the integrating sphere and inside the Integra
LEADER IN LASER BEAM MEASUREMENT SINCE 1972
CANADA
445 St-Jean-Baptiste, Suite 160 Quebec, QC. G2E 5N7 CANADA
T 418-651-8003
F 418-651-1174
info@gentec-eo.com
UNITED STATES
5825 Jean Road Center Lake Oswego, OR. 97035 USA
T 1503) 697-1870
F 503-697-0633
info@gentec-eo.com
WWW.GENTEC-EO.COM
References
- eo.com
- eo.com/resources/download-center
- Laser power, laser energy and terahertz power measurement systems - Gentec-EO
- Laser power, laser energy and terahertz power measurement systems - Gentec-EO
- Download center - Gentec-EO
- Download center - Gentec-EO
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