Sciencetech Solar Simulators | Sciencetech inc.
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    Solar Simulators

    Steady State Solar Simulator
    Flash Solar Simulators
    Solar Cell IV Testing Equipment

    UHE Solar Simulator

    Sciencetech Solar Simulators

    Solar simulators are light sources with specialized characteristics that make them similar to natural sunlight in quantifiable ways. At minimum, solar simulators resemble natural sunlight in their specific spectral match, their low spatial non-uniformity, and their low temporal instability.

    Solar simulators are described in terms of their classification in the format: “Class XYZ” in which the position of the letters is fixed:

      Class XYZ: X represents spectral match: the output irradiance is measured in several wavelength intervals. The percentage output irradiance in each interval is measured, and any one interval with the lowest classification match determines the total ranking (e.g. if all intervals but one are Class A, and one is Class B, the spectral match is Class B).

      Class XYZ: Y represents spatial non-uniformity: the output irradiance is measured at a set of evenly spaced points throughout the target area. The upper and lower range of those points determines the spatial non-uniformity classification. It is important to note that this parameter uses broadband measurements and does not break down the light into wavelength intervals.  

      Class XYZ: Z represents temporal instability: the output irradiance is measured over a specified time interval and the upper and lower range of these measurements determines the temporal instability. It is important to note that the relevant time scale for these parameters was determined with regard to silicon photovoltaics, so other applications may have different (including less stringent) requirements.

      Classifications of A+, A, B, and C for each parameter are defined by internationally recognized standards. Class A+ is primarily intended for use in calibration laboratories and is not considered necessary for manufacturing and qualification testing. 

      Other features that are not included in the standard classification but which may nonetheless be important in specific applications include:

      Collimation: the degree to which the rays of light are parallel. Due to the extreme distance between the sun and the earth’s surface, natural sunlight is highly collimated. In many applications, this is not highly relevant, but in others, especially space applications, it may be important. 

      Air Mass Filter: Depending on the specific conditions the solar simulator is intended to simulate, different spectral conditions will need to be adhered to. For example, greater UV output and greater overall intensity is required when simulating the environment just outside of the earth’s atmosphere (AM0) rather than simulating the environment present outdoors, on the ground, and at mid-latitudes (AM1.5G).  

    Terrestrial or Space Solar Simulator: Depending on the specific conditions the solar simulator is intended to simulate, different spectral conditions will need to be adhered to. For example, greater UV output and greater overall intensity is required when simulating the environment just outside of the earth’s atmosphere (space solar simulator or AM0) rather than simulating the environment present outdoors, on the ground, and at mid-latitudes (terrestrial solar simulator or AM1.5G). AM1.5D and AM1.0D are less common air masses used in terrestrial solar simulators. 

     
     

    Introduction to Our Ultra-High Efficiency Solar Simulator

    Class AAA UHE-NL-150


    We manufacture many other varieties of solar simulators and this demonstration is applicable to our other solar simulator types as well. All the instructions in the video will also be provided in the manual that comes along with the system.

    UHE Solar Simulator
     
     

    Sciencetech Webinar: Versatile Solar Simulators

    Explore Unlimited Research Opportunities


    This webinar is an overview of the guidelines and principles behind designing and manufacturing Solar Simulators. Discussion topics include: why use a solar simulator, how to choose the right solar simulator, solar simulation specs, and an overview of our UHE Solar Simulator.

    Sciencetech's Capabilities

    Sciencetech Solar Simulator Models

    Class AAA and ABA (Spectral match, spatial non-uniformity of irradiance, temporal instability) 


    Sciencetech Inc. designs and fabricates more than 30 different variants of Solar Simulators. Compliance to standards IEC 60904-9, ASTM E 927 Class A spectral match, Class A or B spatial non-uniformity of irradiance, Class A temporal instability. Take a look below

    Solar Simulators Target Size Working Distance Spatial
    Non-Uniformity
    Square Side Circ. Diameter
    Inches cm Inches cm Inches cm Class
    Steady-State
    Low Cost
    		SF300A 0.7 1.8 1 2.5 3 - 4 13
    SF300B 1.4 3.6 2 5 3 - 4 13 B
    SciSun 150 2 5 2 5 15 38 A
    SciSun 300 2 5 2 5 15 38 A
    Fully Reflective
    SS0.5kW
    		2.1 5.2 3 7.5 18 45 B
    SS1.0kW 3.5 8.8 5 12.5 30 75 B
    SS1.6K 4.2 10.7 6 15.3 36 90 B
    SS2.5K 5.6 14 7.8 20 42 105 B
    UV - Fully Reflective
    		SS0.5kW-UV 2.1 5.3 3 7.5 18 45 B
    SS1.0kW-UV 3.5 8.8 5 12.5 35.2 88 B
    SS1.6kW-UV 4.5 11.3 6.4 16 50 125 B
    SS2.5kW-UV 5.6 14.1 8 20 42 105 B
    Highly Collimated
    		SFR1.6K 6.3 16 8.5 21.5 ~12 30 B
    SFR3.0K 8.4 21 11.5 29.5 ~12 30 B
    Fiberized
    (Optical Fiber)
    		Solar LightLine A1 1 2.5 1 2.5 4 10 A
    Solar LightLine A4 1 2.5 1 2.5 4 10 A
    Workstation
    (with Chamber Opt.)
    		SL-38A-WS 1.5 3.8 1.5 3.8 10 25 A
    SL-50A-WS 2 5 2 5 10 25 A
    SL-60A-WS 2.4 6 2.4 6 10 25 A
    UHE Work Station
    (Ultra High Efficiency)
    		UHE-NS-075 3 7.5 3 7.5 8 20 A
    UHE-NS-100 4 10 4 10 12 30 A
    UHE-NL-150 6 15 6 15 20 50 A
    UHE-NL-200 8 20 8 20 23 58 A
    UHE-NS-250 10 25 10 25 26 65 A
    UHE-NS-300 12 30 12 30 26 65 A
    Large Area
    		LASI 20 50 20 50 40 100 C
    Flash
    Large Area
    		PSS1 40 100 40 100 40 100 A
    PSS1.5 60 150 60 150 40 100 A
    PSS2 80 200 80 200 40 100 A
    Concentrator
    		FSSC 200-4000 Suns 2 5 2 5 ~0.5 ~1.2 A
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    UHE Solar Simulator

    The Solar Constant and Solar Simulation


    The radiation from the Sun is measured in two ways for a variety of fields of research. The solar constant is the irradiance or intensity of light incident at the surface of the Earth’s atmosphere on a plane normal to the angle of incidence.


    This value has been defined by the World Meteorological Organization to be 1366.7W/m2 outside the atmosphere. The irradiance of the Sun at the Earth’s surface varies under different conditions due to absorption and scattering effects in the atmosphere, and so a number of other constants are important in regards to the irradiance of a solar simulator.



    Below the atmosphere the radiation emitted from the Sun can be divided into two components: direct radiation that comes from the Sun itself, and scattered radiation coming from the rest of the sky, including a portion reflected back from the ground. Solar simulators are adjusted to imitate the spectral distribution of sunlight for a variety of environments; to do this the spectral distribution from the xenon arc lamp source is altered and refined using Air Mass (AM) filters.


    When discussing filters, the direct radiation spectrum is imitated using a direct (D) filter, and the total including scattered sky and ground radiation is matched by using a global (G) filter that imitates both components together.

    Sciencetech AM Filters


    Sciencetech’s AM filters are designed to be used individually for standard conditions, although they can also be arranged in series to produce other spectral distributions. Many solar simulator systems used by our competition require filters to be used in series to achieve the same performance as Sciencetech’s filters, for example using AM0 and AM1.0 filters in series to achieve a AM1.0 spectral distribution, whereas Sciencetech’s AM1.0 filter can be used alone to achieve the same result, reducing power loss and the cost of additional filters.

    View All Sciencetech AM Filters
    Sciencetech AM Filters
    Sciencetech Xenon Arc Lamp Light Source

    Most Sciencetech solar simulators use xenon arc lamps, which enables the system to produce an intense, collimated beam of light, similar to that of a 5,800oK blackbody. The biggest difference between the two is the xenon lines are present in the arc spectrum, and atmospheric absorptions in solar spectra, which is especially highlighted in the 800-1100nm range because of the intense line output of the lamp. An AM0 filter can reduce this effect so that the average level in specified bands matches solar levels above the atmosphere to better than ±25%, although complete elimination of the xenon lines while preserving the rest of the spectrum is impossible with a practical filter. AM1.0, 1.5 and 2.0 filters further modify the visible and UV portions of the spectrum for different sea-level conditions, and coupled with the use of high pressure Xenon arc lamps Sciencetech is capable of producing Class A standards for our solar simulators.

    View All Sciencetech Xenon Arc Lamps

    The graphs on the right show the typical output spectra of Sciencetech’s fully reflective solar simulators. These spectral irradiance curves combine the spectral curves of the xenon arc lamp source, air mass filter, and mirrors used inside the solar simulator beam homogenizer. Actual output spectra may vary due to the condition of the lamp and manufacturing tolerances of the air mass filters. In order to simplify visual comparison of the spectral curves of our solar simulators with ASTM E927-10 standard curves, the simulator outputs are normalized to the corresponding standard spectrum.

    AM Profiles
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    With the Sciencetech Solar LightLine you can direct the Class AAA solar light anywhere you want. Classic designs for solar simulators require you to bring your sample to the solar simulator. Now, you can bring the solar simulator to your sample! This makes the Sciencetech Solar LightLine series of fiberized solar simulators ideal for research that just can't accommodate traditional bulky solar simulators. The solar light can be easily integrated with a glove box without mounting the entire solar simulator in the glove box, saving space and adding flexibility. The standard 4-foot-long fiber makes the simulator ideal for doing spot checks of devices on manufacturing lines or in dedicated setups that can't accommodate a bulky solar simulator.

    The Lightline includes space for fitting one internal accessory. Options are a motorized, 6-position filter wheel, with a variety of spectral or neutral density filters that can be supplied. Or a manual or motorized attenuation system that provides continuous control over intensity at the target from 10-100%. Internal accessories must be selected at the time of order and cannot be added at a later time.

    Every Lightline includes an internal two-position filter tray that accommodates Sciencetech FT style filters. Model AX-100 and AX-200 come with a removeable FT-style filter that permits one sun operation. One filter location is reserved for the selected air mass filter. Air mass filters must be selected in the order for spectral match classification.

    Classification is performed to ASTM E927-19. Classification to IEC 60904-9 and JIS C 08912 standards can be performed on request. Please contact your Sciencetech Technical Representative for details.

    - Includes adjustable touchscreen 601-series power supply with current control from 80-100% of max current.
    - Includes computer-controlled high intensity shutter.
    - Length of light guide: 4 feet (other light guide lengths are possible) Light guides can be fitted with KF flanges for glovebox integration.
    - Includes one 300W xenon short arc lamp.

    This unit runs on 120/220VAC.
    CE compliant.
    9,200.00
    With the Sciencetech Solar LightLine you can direct the Class AAA solar light anywhere you want. Classic designs for solar simulators require you to bring your sample to the solar simulator. Now, you can bring the solar simulator to your sample! This makes the Sciencetech Solar LightLine series of fiberized solar simulators ideal for research that just can't accommodate traditional bulky solar simulators. The solar light can be easily integrated with a glove box without mounting the entire solar simulator in the glove box, saving space and adding flexibility. The standard 4-foot-long fiber makes the simulator ideal for doing spot checks of devices on manufacturing lines or in dedicated setups that can't accommodate a bulky solar simulator.

    The Lightline includes space for fitting one internal accessory. Options are a motorized, 6-position filter wheel, with a variety of spectral or neutral density filters that can be supplied. Or a manual or motorized attenuation system that provides continuous control over intensity at the target from 10-100%. Internal accessories must be selected at the time of order and cannot be added at a later time.

    Every Lightline includes an internal two-position filter tray that accommodates Sciencetech FT style filters. Model AX-100 and AX-200 come with a removeable FT-style filter that permits one sun operation. One filter location is reserved for the selected air mass filter. Air mass filters must be selected in the order for spectral match classification.

    Classification is performed to ASTM E927-19. Classification to IEC 60904-9 and JIS C 08912 standards can be performed on request. Please contact your Sciencetech Technical Representative for details.

    - Includes adjustable touchscreen 601-series power supply with current control from 80-100% of max current.
    - Includes computer-controlled high intensity shutter.
    - Length of light guide: 4 feet (other light guide lengths are possible) Light guides can be fitted with KF flanges for glovebox integration.
    - Includes one 300W xenon short arc lamp.

    This unit runs on 120/220VAC.
    CE compliant.
    9,200.00 9200.0 USD
    Price Valid only in North America

    This option for SS0.5K, SS1.0K and SS1.6K solar simulators makes the solar simulator vertical standing. With this option the output from the solar simulator will be parallel to the floor it is standing on.
    400.00
    This option for SS0.5K, SS1.0K and SS1.6K solar simulators makes the solar simulator vertical standing. With this option the output from the solar simulator will be parallel to the floor it is standing on.
    400.00 400.0 USD
    Price Valid only in North America

    This option for SS0.5K, SS1.0K and SS1.6K solar simulators makes the solar simulator vertical standing. The base is fitted with castors so that the simulator can be easily moved. This option is very useful if the simulator location may be changed from time to time. With this option the output from the solar simulator will be parallel to the floor it is standing on.
    500.00
    This option for SS0.5K, SS1.0K and SS1.6K solar simulators makes the solar simulator vertical standing. The base is fitted with castors so that the simulator can be easily moved. This option is very useful if the simulator location may be changed from time to time. With this option the output from the solar simulator will be parallel to the floor it is standing on.
    500.00 500.0 USD
    Price Valid only in North America

    This device is designed to be coupled to one of Sciencetech's IV Test systems. The Load Booster is inserted between the Keithley and the device under test with the Keithley current range set to 0.1A and used in remote (4 wire) sensing mode. The Load Booster effectively expands the IV testing current range.
    Load Boosters may only be used in pulsed mode operation. They cannot be used for continuous illumination and measurement.
    Voltage Range: 200V
    Current Range: 10A
    5,000.00
    This device is designed to be coupled to one of Sciencetech's IV Test systems. The Load Booster is inserted between the Keithley and the device under test with the Keithley current range set to 0.1A and used in remote (4 wire) sensing mode. The Load Booster effectively expands the IV testing current range.
    Load Boosters may only be used in pulsed mode operation. They cannot be used for continuous illumination and measurement.
    Voltage Range: 200V
    Current Range: 10A
    5,000.00 5000.0 USD
    Price Valid only in North America

    This device is designed to be coupled to one of Sciencetech's IV Test systems. The Load Booster is inserted between the Keithley and the device under test with the Keithley current range set to 0.1A and used in remote (4 wire) sensing mode. The Load Booster effectively expands the IV testing current range.
    Load Boosters may only be used in pulsed mode operation. They cannot be used for continuous illumination and measurement.
    Voltage Range: 200V
    Current Range: 20A

    6,000.00
    This device is designed to be coupled to one of Sciencetech's IV Test systems. The Load Booster is inserted between the Keithley and the device under test with the Keithley current range set to 0.1A and used in remote (4 wire) sensing mode. The Load Booster effectively expands the IV testing current range.
    Load Boosters may only be used in pulsed mode operation. They cannot be used for continuous illumination and measurement.
    Voltage Range: 200V
    Current Range: 20A

    6,000.00 6000.0 USD
    Price Valid only in North America

    This device is designed to be coupled to one of Sciencetech's IV Test systems. The Load Booster is inserted between the Keithley and the device under test with the Keithley current range set to 0.1A and used in remote (4 wire) sensing mode. The Load Booster effectively expands the IV testing current range.
    Load Boosters may only be used in pulsed mode operation. They cannot be used for continuous illumination and measurement.
    Voltage Range: 200V
    Current Range: 40A
    7,000.00
    This device is designed to be coupled to one of Sciencetech's IV Test systems. The Load Booster is inserted between the Keithley and the device under test with the Keithley current range set to 0.1A and used in remote (4 wire) sensing mode. The Load Booster effectively expands the IV testing current range.
    Load Boosters may only be used in pulsed mode operation. They cannot be used for continuous illumination and measurement.
    Voltage Range: 200V
    Current Range: 40A
    7,000.00 7000.0 USD
    Price Valid only in North America

    This device is designed to be coupled to one of Sciencetech's IV Test systems. The Load Booster is inserted between the Keithley and the device under test with the Keithley current range set to 0.1A and used in remote (4 wire) sensing mode. The Load Booster effectively expands the IV testing current range.
    Load Boosters may only be used in pulsed mode operation. They cannot be used for continuous illumination and measurement.
    Voltage Range: 200V
    Current Range: 60A
    8,000.00
    This device is designed to be coupled to one of Sciencetech's IV Test systems. The Load Booster is inserted between the Keithley and the device under test with the Keithley current range set to 0.1A and used in remote (4 wire) sensing mode. The Load Booster effectively expands the IV testing current range.
    Load Boosters may only be used in pulsed mode operation. They cannot be used for continuous illumination and measurement.
    Voltage Range: 200V
    Current Range: 60A
    8,000.00 8000.0 USD
    Price Valid only in North America

    This device is designed to be coupled to one of Sciencetech's IV Test systems. The Load Booster is inserted between the Keithley and the device under test with the Keithley current range set to 0.1A and used in remote (4 wire) sensing mode. The Load Booster effectively expands the IV testing current range.
    Load Boosters may only be used in pulsed mode operation. They cannot be used for continuous illumination and measurement.
    Voltage Range: 200V
    Current Range: 80A

    8,500.00
    This device is designed to be coupled to one of Sciencetech's IV Test systems. The Load Booster is inserted between the Keithley and the device under test with the Keithley current range set to 0.1A and used in remote (4 wire) sensing mode. The Load Booster effectively expands the IV testing current range.
    Load Boosters may only be used in pulsed mode operation. They cannot be used for continuous illumination and measurement.
    Voltage Range: 200V
    Current Range: 80A

    8,500.00 8500.0 USD
    Price Valid only in North America

    This vertical stand enables the SS150 fully reflective solar simulator to project its output beam downwards onto a horizontal illumination table which makes it ideal for solar cell testing. The stand assures the distance between the output port of the solar simulator to the sample platform produces exactly 1 SUN intensity (100mW/cm2 using an AM1.5G filter).
    1,027.00
    This vertical stand enables the SS150 fully reflective solar simulator to project its output beam downwards onto a horizontal illumination table which makes it ideal for solar cell testing. The stand assures the distance between the output port of the solar simulator to the sample platform produces exactly 1 SUN intensity (100mW/cm2 using an AM1.5G filter).
    1,027.00 1027.0 USD
    Price Valid only in North America

    The FLASH-ST4 pulse stretcher integrates with Sciencetech flash light sources and solar simulators that operate with the 2400RS power pack.
    The stretcher is connected in-line between the power pack and the flash light source or solar simulator housing. The FLASH-ST4 stretches pulses to 4ms +/-3% stabity level.
    In most cases using the FLASH-ST4 reduces the maximum intensity level achievable by the light source. Typically maximum peak intensity levels are reduced by 1/2 of simulator or light sources peak specified Sun or intensity level.

    Sciencetech can produce customer flash pulse stretchers depending on your design requirements. Please talk to a technical support representative for more information.
    16,000.00
    The FLASH-ST4 pulse stretcher integrates with Sciencetech flash light sources and solar simulators that operate with the 2400RS power pack.
    The stretcher is connected in-line between the power pack and the flash light source or solar simulator housing. The FLASH-ST4 stretches pulses to 4ms +/-3% stabity level.
    In most cases using the FLASH-ST4 reduces the maximum intensity level achievable by the light source. Typically maximum peak intensity levels are reduced by 1/2 of simulator or light sources peak specified Sun or intensity level.

    Sciencetech can produce customer flash pulse stretchers depending on your design requirements. Please talk to a technical support representative for more information.
    16,000.00 16000.0 USD
    Price Valid only in North America

    The Sciencetech FLASH-ST pulse stretcher is capable of stretching flash pulses from Sciencetech's standard 120VAC or 220VAC flash power supplies. The FLASH-ST can produce pulses with an intensity stability of +/- 5% over a 3ms temporal width. This pulse stretcher will reduce the peak intensity by 25% as it spreads the energy produced by the lamp over a wider time. Sciencetech also produces flash power supplies that can produce flat top pulses over different pulse widths. Please speak with your authorized Sciencetech technical sales staff to determine how we can make a Pulse Stretcher Unit to meet your specific technical requirements.
    Please note that a power supply, flash bulb, and flash head are required for operation and are sold separately. This unit only works with the 2400RS flash power packs (590-0129 for 120VAC, 590-0120 for 220VAC)
    8,550.00
    The Sciencetech FLASH-ST pulse stretcher is capable of stretching flash pulses from Sciencetech's standard 120VAC or 220VAC flash power supplies. The FLASH-ST can produce pulses with an intensity stability of +/- 5% over a 3ms temporal width. This pulse stretcher will reduce the peak intensity by 25% as it spreads the energy produced by the lamp over a wider time. Sciencetech also produces flash power supplies that can produce flat top pulses over different pulse widths. Please speak with your authorized Sciencetech technical sales staff to determine how we can make a Pulse Stretcher Unit to meet your specific technical requirements.
    Please note that a power supply, flash bulb, and flash head are required for operation and are sold separately. This unit only works with the 2400RS flash power packs (590-0129 for 120VAC, 590-0120 for 220VAC)
    8,550.00 8550.0 USD
    Price Valid only in North America

    Sciencetech’s FSSC flash solar simulator is designed to illuminate small photovoltaic devices up to 5cm × 5cm in size with up to 4000 Suns peak intensity. The default spectral match is to ASTM AM1.5G, using a heavy-duty xenon flash lamp and spectral filtering. The flash is 500µs at 90% of peak intensity, and 2.5ms at 50% of peak intensity, but pulse stretching options are available for longer, flatter pulses (purchased separately). The uniformity of the system is better than 2% at the target plane.

    This product includes a flash system, power supply, and lamp. Air mass filters are sold separately (AM1.5G). Other filters are available at additional cost. Available accessories include IV measurement systems, pre-configured host computers, and sample holding and cooling options.

    Spectral Match: Class A
    Spatial Non-Uniformity: Better than 2% at the target plane
    Temporal Instability: Class A
    Target Size: 5cm × 5cmm (up to 4000 Suns)
    Working Distance: 3mm
    Pulse Length: 500µs at 90% of peak intensity, and 2.5ms at 50% of peak intensity
    Collimation: Non-collimated
    109,620.00
    In stock
    Sciencetech’s FSSC flash solar simulator is designed to illuminate small photovoltaic devices up to 5cm × 5cm in size with up to 4000 Suns peak intensity. The default spectral match is to ASTM AM1.5G, using a heavy-duty xenon flash lamp and spectral filtering. The flash is 500µs at 90% of peak intensity, and 2.5ms at 50% of peak intensity, but pulse stretching options are available for longer, flatter pulses (purchased separately). The uniformity of the system is better than 2% at the target plane.

    This product includes a flash system, power supply, and lamp. Air mass filters are sold separately (AM1.5G). Other filters are available at additional cost. Available accessories include IV measurement systems, pre-configured host computers, and sample holding and cooling options.

    Spectral Match: Class A
    Spatial Non-Uniformity: Better than 2% at the target plane
    Temporal Instability: Class A
    Target Size: 5cm × 5cmm (up to 4000 Suns)
    Working Distance: 3mm
    Pulse Length: 500µs at 90% of peak intensity, and 2.5ms at 50% of peak intensity
    Collimation: Non-collimated
    109,620.00 109620.0 USD
    Price Valid only in North America

    Sciencetech's FSSP solar simulator is designed to illuminate targets of 1x1m with 1 sun, or smaller targets with multiple suns. The default spectral match is to ASTM AM1.5G. The flash itself is a stable 1ms length, with options available (purchased separately) to stretch the pulse. Timing and number of flashes can be computer controlled. This unit is a Class AAA flash solar simulator by default, with options available to reduce spatial uniformity in order to increase target size.

    Sciencetech can also offer increased spectral ranges and other additional features upon request.

    This product includes a flash system, power supply, lamp, and an air mass filter (AM1.5G). Other filters are available at additional cost. Available accessories include IV measurement systems, pre-configured host computers, and sample holding and cooling options. Please inquire with Sciencetech technical support staff about our automation and assembly line manufacturing partners.

    Spectral Match: Class A
    Spatial Non-Uniformity: Class A
    Temporal Instability: Class A
    Target Size: 1m × 1m (1 Sun) (Smaller targets available at higher intensities.)
    Working Distance: 5-10m
    Pulse Length: 1ms (Pulse stretching available)
    Collimation: 2° half angle
    42,816.00
    In stock
    Sciencetech's FSSP solar simulator is designed to illuminate targets of 1x1m with 1 sun, or smaller targets with multiple suns. The default spectral match is to ASTM AM1.5G. The flash itself is a stable 1ms length, with options available (purchased separately) to stretch the pulse. Timing and number of flashes can be computer controlled. This unit is a Class AAA flash solar simulator by default, with options available to reduce spatial uniformity in order to increase target size.

    Sciencetech can also offer increased spectral ranges and other additional features upon request.

    This product includes a flash system, power supply, lamp, and an air mass filter (AM1.5G). Other filters are available at additional cost. Available accessories include IV measurement systems, pre-configured host computers, and sample holding and cooling options. Please inquire with Sciencetech technical support staff about our automation and assembly line manufacturing partners.

    Spectral Match: Class A
    Spatial Non-Uniformity: Class A
    Temporal Instability: Class A
    Target Size: 1m × 1m (1 Sun) (Smaller targets available at higher intensities.)
    Working Distance: 5-10m
    Pulse Length: 1ms (Pulse stretching available)
    Collimation: 2° half angle
    42,816.00 42816.0 USD
    Price Valid only in North America

    Sciencetech’s FSSP-HC-A highly collimated flash solar simulator is capable of illuminating targets up to 1.8 × 1.5m (or 1.5m diameter) with highly collimated light (up to 0.5° half angle). This allows testing of concentrated photovoltaics (CPV) or other applications requiring extremely high collimation. Within the illuminated area, the central 1 × 1m or larger meets Class A uniformity requirements. Please speak with your Sciencetech technical support staff for Class A uniformity matching over the entire illumination area. The default spectral match is to ASTM AM1.5D.

    This product includes a flash system, power supply, collimating mirror, and lamp. Air mass filters are available separately (AM1.5D and AM1.5G, with additional filters available upon request). Available accessories include IV measurement systems, pre-configured host computers, and sample holding and cooling options. Please inquire with Sciencetech technical support staff about our automation and assembly line manufacturing partners.

    Spectral Match: Class A
    Spatial Non-Uniformity: Class A (Central 1m × 1m)
    Temporal Instability: Class A
    Target Size: 1.8m × 1.5m (1 Sun)
    Working Distance: 5m
    Pulse Length: 500µs at 90% of peak intensity, and 2.5ms at 50% of peak intensity
    Collimation: 0.5° half angle
    150,000.00
    In stock
    Sciencetech’s FSSP-HC-A highly collimated flash solar simulator is capable of illuminating targets up to 1.8 × 1.5m (or 1.5m diameter) with highly collimated light (up to 0.5° half angle). This allows testing of concentrated photovoltaics (CPV) or other applications requiring extremely high collimation. Within the illuminated area, the central 1 × 1m or larger meets Class A uniformity requirements. Please speak with your Sciencetech technical support staff for Class A uniformity matching over the entire illumination area. The default spectral match is to ASTM AM1.5D.

    This product includes a flash system, power supply, collimating mirror, and lamp. Air mass filters are available separately (AM1.5D and AM1.5G, with additional filters available upon request). Available accessories include IV measurement systems, pre-configured host computers, and sample holding and cooling options. Please inquire with Sciencetech technical support staff about our automation and assembly line manufacturing partners.

    Spectral Match: Class A
    Spatial Non-Uniformity: Class A (Central 1m × 1m)
    Temporal Instability: Class A
    Target Size: 1.8m × 1.5m (1 Sun)
    Working Distance: 5m
    Pulse Length: 500µs at 90% of peak intensity, and 2.5ms at 50% of peak intensity
    Collimation: 0.5° half angle
    150,000.00 150000.0 USD
    Price Valid only in North America

    Sciencetech’s FSSP-HC-B highly collimated flash solar simulator is capable of illuminating targets up to 1.8 x 1.5m (or 1.5m diameter) with highly collimated light (up to 0.5° half angle). This allows testing of concentrated photovoltaics (CPV) or other applications requiring extremely high collimation.

    This product includes a power supply, collimating mirror, and lamp. Air mass filters are available separately (AM1.5D and AM1.5G, with additional filters available upon request). Available accessories include IV measurement systems, pre-configured host computers, and sample holding and cooling options. Please inquire with Sciencetech technical support staff about our automation and assembly line manufacturing partners.

    Spectral Match: Class A
    Spatial Non-Uniformity: Class B
    Temporal Instability: Class A
    Target Size: 1.8m × 1.5m (1 Sun)
    Working Distance: 5m
    Pulse Length: 500µs at 90% of peak intensity, and 2.5ms at 50% of peak intensity
    Collimation: 0.5° half angle
    130,000.00
    In stock
    Sciencetech’s FSSP-HC-B highly collimated flash solar simulator is capable of illuminating targets up to 1.8 x 1.5m (or 1.5m diameter) with highly collimated light (up to 0.5° half angle). This allows testing of concentrated photovoltaics (CPV) or other applications requiring extremely high collimation.

    This product includes a power supply, collimating mirror, and lamp. Air mass filters are available separately (AM1.5D and AM1.5G, with additional filters available upon request). Available accessories include IV measurement systems, pre-configured host computers, and sample holding and cooling options. Please inquire with Sciencetech technical support staff about our automation and assembly line manufacturing partners.

    Spectral Match: Class A
    Spatial Non-Uniformity: Class B
    Temporal Instability: Class A
    Target Size: 1.8m × 1.5m (1 Sun)
    Working Distance: 5m
    Pulse Length: 500µs at 90% of peak intensity, and 2.5ms at 50% of peak intensity
    Collimation: 0.5° half angle
    130,000.00 130000.0 USD
    Price Valid only in North America

    A system of 16 LASI units. Each LASI unit illuminates up to 0.5x0.5m with a filtered xenon short arc lamp producing 6,000K illumination.

    Non-uniformity is not tested, and typical values are quoted.
    LASI units are tested for spectral match compliance to ASTM E927-19 AM1.5G class C and temporal instability compliance to ASTM E927-19 class A.
    LASI units include one high-quality 1.6kW xenon short arc lamp per unit purchased.

    Each unit includes an integrated single-phase power supply with a touch screen interface that requires 220VAC. Systems can be operated remotely through Sciencetech PowerControl software. C++/ Python control is possible with an additional SciencetechCOM module. Labview control is possible with additional SciAX module.

    In certain applications a single LASI may be used on its own. However, LASIs are best used in arrays of multiple units, as the optical performance improves when the light from multiple units overlaps.

    LASI units have a mounting flange but do not include a stand to hold the LASI unit. LASI units are intended to operate vertically facing downwards. See the brochure for additional product information and available accessories.

    Power requirements: 200-240 VAC, 12.1 to 9.0 A per unit.
    272,400.00
    In stock
    A system of 16 LASI units. Each LASI unit illuminates up to 0.5x0.5m with a filtered xenon short arc lamp producing 6,000K illumination.

    Non-uniformity is not tested, and typical values are quoted.
    LASI units are tested for spectral match compliance to ASTM E927-19 AM1.5G class C and temporal instability compliance to ASTM E927-19 class A.
    LASI units include one high-quality 1.6kW xenon short arc lamp per unit purchased.

    Each unit includes an integrated single-phase power supply with a touch screen interface that requires 220VAC. Systems can be operated remotely through Sciencetech PowerControl software. C++/ Python control is possible with an additional SciencetechCOM module. Labview control is possible with additional SciAX module.

    In certain applications a single LASI may be used on its own. However, LASIs are best used in arrays of multiple units, as the optical performance improves when the light from multiple units overlaps.

    LASI units have a mounting flange but do not include a stand to hold the LASI unit. LASI units are intended to operate vertically facing downwards. See the brochure for additional product information and available accessories.

    Power requirements: 200-240 VAC, 12.1 to 9.0 A per unit.
    272,400.00 272400.0 USD
    Price Valid only in North America

    A single LASI unit. Each LASI unit illuminates up to 0.5x0.5m with a filtered xenon short arc lamp producing 6,000K illumination. Non-Uniformity is not tested, and typical values are quoted.

    LASI units are tested for spectral match compliance to ASTM E927-19 AM1.5G class C and temporal instability compliance to ASTM E927-19 class A.
    LASI units include one high-quality 1.6kW xenon short arc lamp.

    Each unit includes an integrated single-phase power supply with a touch screen interface that requires 220VAC. Systems can be operated remotely through Sciencetech PowerControl software. C++/ Python control is possible with an additional SciencetechCOM module. Labview control is possible with additional SciAX module.

    In certain applications a single LASI may be used on its own. However, LASIs are best used in arrays of multiple units, as the optical performance improves when the light from multiple units overlaps.

    LASI units have a mounting flange but do not include a stand to hold the LASI unit. LASI units are intended to operate vertically facing downwards. See the brochure for additional product information and available accessories.

    200 to 240 VAC, 12.1 to 9.0 A.
    Requires 1 IEC 60320 C19 power cord
    18,900.00
    In stock
    A single LASI unit. Each LASI unit illuminates up to 0.5x0.5m with a filtered xenon short arc lamp producing 6,000K illumination. Non-Uniformity is not tested, and typical values are quoted.

    LASI units are tested for spectral match compliance to ASTM E927-19 AM1.5G class C and temporal instability compliance to ASTM E927-19 class A.
    LASI units include one high-quality 1.6kW xenon short arc lamp.

    Each unit includes an integrated single-phase power supply with a touch screen interface that requires 220VAC. Systems can be operated remotely through Sciencetech PowerControl software. C++/ Python control is possible with an additional SciencetechCOM module. Labview control is possible with additional SciAX module.

    In certain applications a single LASI may be used on its own. However, LASIs are best used in arrays of multiple units, as the optical performance improves when the light from multiple units overlaps.

    LASI units have a mounting flange but do not include a stand to hold the LASI unit. LASI units are intended to operate vertically facing downwards. See the brochure for additional product information and available accessories.

    200 to 240 VAC, 12.1 to 9.0 A.
    Requires 1 IEC 60320 C19 power cord
    18,900.00 18900.0 USD
    Price Valid only in North America

    A system of 36 LASI units. Each LASI unit illuminates up to 0.5x0.5m with a filtered xenon short arc lamp producing 6,000K illumination.

    Non-uniformity is not tested, and typical values are quoted.
    LASI units are tested for spectral match compliance to ASTM E927-19 AM1.5G class C and temporal instability compliance to ASTM E927-19 class A.
    LASI units include one high-quality 1.6kW xenon short arc lamp per unit purchased.

    Each unit includes an integrated single-phase power supply with a touch screen interface that requires 220VAC. Systems can be operated remotely through Sciencetech PowerControl software. C++/ Python control is possible with an additional SciencetechCOM module. Labview control is possible with additional SciAX module.

    In certain applications a single LASI may be used on its own. However, LASIs are best used in arrays of multiple units, as the optical performance improves when the light from multiple units overlaps.

    LASI units have a mounting flange but do not include a stand to hold the LASI unit. LASI units are intended to operate vertically facing downwards. See the brochure for additional product information and available accessories.

    Power requirements: 200-240 VAC, 12.1 to 9.0 A per unit.

    592,200.00
    In stock
    A system of 36 LASI units. Each LASI unit illuminates up to 0.5x0.5m with a filtered xenon short arc lamp producing 6,000K illumination.

    Non-uniformity is not tested, and typical values are quoted.
    LASI units are tested for spectral match compliance to ASTM E927-19 AM1.5G class C and temporal instability compliance to ASTM E927-19 class A.
    LASI units include one high-quality 1.6kW xenon short arc lamp per unit purchased.

    Each unit includes an integrated single-phase power supply with a touch screen interface that requires 220VAC. Systems can be operated remotely through Sciencetech PowerControl software. C++/ Python control is possible with an additional SciencetechCOM module. Labview control is possible with additional SciAX module.

    In certain applications a single LASI may be used on its own. However, LASIs are best used in arrays of multiple units, as the optical performance improves when the light from multiple units overlaps.

    LASI units have a mounting flange but do not include a stand to hold the LASI unit. LASI units are intended to operate vertically facing downwards. See the brochure for additional product information and available accessories.

    Power requirements: 200-240 VAC, 12.1 to 9.0 A per unit.

    592,200.00 592200.0 USD
    Price Valid only in North America

    A system of 4 LASI units. Each LASI unit illuminates up to 0.5x0.5m with a filtered xenon short arc lamp producing 6,000K illumination.

    Non-uniformity is not tested, and typical values are quoted.
    LASI units are tested for spectral match compliance to ASTM E927-19 AM1.5G class C and temporal instability compliance to ASTM E927-19 class A.
    LASI units include one high-quality 1.6kW xenon short arc lamp per unit purchased.

    Each unit includes an integrated single-phase power supply with a touch screen interface that requires 220VAC. Systems can be operated remotely through Sciencetech PowerControl software. C++/ Python control is possible with an additional SciencetechCOM module. Labview control is possible with additional SciAX module.

    In certain applications a single LASI may be used on its own. However, LASIs are best used in arrays of multiple units, as the optical performance improves when the light from multiple units overlaps.

    LASI units have a mounting flange but do not include a stand to hold the LASI unit. LASI units are intended to operate vertically facing downwards. See the brochure for additional product information and available accessories.

    Power requirements: 200-240 VAC, 12.1 to 9.0 A per unit.
    72,360.00
    In stock
    A system of 4 LASI units. Each LASI unit illuminates up to 0.5x0.5m with a filtered xenon short arc lamp producing 6,000K illumination.

    Non-uniformity is not tested, and typical values are quoted.
    LASI units are tested for spectral match compliance to ASTM E927-19 AM1.5G class C and temporal instability compliance to ASTM E927-19 class A.
    LASI units include one high-quality 1.6kW xenon short arc lamp per unit purchased.

    Each unit includes an integrated single-phase power supply with a touch screen interface that requires 220VAC. Systems can be operated remotely through Sciencetech PowerControl software. C++/ Python control is possible with an additional SciencetechCOM module. Labview control is possible with additional SciAX module.

    In certain applications a single LASI may be used on its own. However, LASIs are best used in arrays of multiple units, as the optical performance improves when the light from multiple units overlaps.

    LASI units have a mounting flange but do not include a stand to hold the LASI unit. LASI units are intended to operate vertically facing downwards. See the brochure for additional product information and available accessories.

    Power requirements: 200-240 VAC, 12.1 to 9.0 A per unit.
    72,360.00 72360.0 USD
    Price Valid only in North America

    A system of 48 LASI units. Each LASI unit illuminates up to 0.5x0.5m with a filtered xenon short arc lamp producing 6,000K illumination.

    Non-uniformity is not tested, and typical values are quoted.
    LASI units are tested for spectral match compliance to ASTM E927-19 AM1.5G class C and temporal instability compliance to ASTM E927-19 class A.
    LASI units include one high-quality 1.6kW xenon short arc lamp per unit purchased.

    Each unit includes an integrated single-phase power supply with a touch screen interface that requires 220VAC. Systems can be operated remotely through Sciencetech PowerControl software. C++/ Python control is possible with an additional SciencetechCOM module. Labview control is possible with additional SciAX module.

    In certain applications a single LASI may be used on its own. However, LASIs are best used in arrays of multiple units, as the optical performance improves when the light from multiple units overlaps.

    LASI units have a mounting flange but do not include a stand to hold the LASI unit. LASI units are intended to operate vertically facing downwards. See the brochure for additional product information and available accessories.

    Power requirements: 200-240 VAC, 12.1 to 9.0 A per unit.
    784,400.00
    In stock
    A system of 48 LASI units. Each LASI unit illuminates up to 0.5x0.5m with a filtered xenon short arc lamp producing 6,000K illumination.

    Non-uniformity is not tested, and typical values are quoted.
    LASI units are tested for spectral match compliance to ASTM E927-19 AM1.5G class C and temporal instability compliance to ASTM E927-19 class A.
    LASI units include one high-quality 1.6kW xenon short arc lamp per unit purchased.

    Each unit includes an integrated single-phase power supply with a touch screen interface that requires 220VAC. Systems can be operated remotely through Sciencetech PowerControl software. C++/ Python control is possible with an additional SciencetechCOM module. Labview control is possible with additional SciAX module.

    In certain applications a single LASI may be used on its own. However, LASIs are best used in arrays of multiple units, as the optical performance improves when the light from multiple units overlaps.

    LASI units have a mounting flange but do not include a stand to hold the LASI unit. LASI units are intended to operate vertically facing downwards. See the brochure for additional product information and available accessories.

    Power requirements: 200-240 VAC, 12.1 to 9.0 A per unit.
    784,400.00 784400.0 USD
    Price Valid only in North America
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