Steady State Solar Simulator

 

                                   

All Sciencetech systems incorporate adherence to industry standards. Sciencetech PV Testing System equipment are designed and manufactured according to.  High Intensity, Uniform Illumination of artificial solar irradiation.

Steady state solar simulators are light sources similar to natural sunlight that offer the advantage of consistent light output over a period of hours or more.

Sciencetech solar simulators are highly configurable and with an impressive range of solar simulator options, our systems have been serving multiple researches and testing applications. Our solar simulator systems comply with standards such as ASTM, IEC and JIS and provides variability is design to accommodate researcher’s requirements. With over 30 years of experience in the solar simulator designing and manufacturing field, our systems provide


1) Spectral emission closest to the sun’s spectrum

2) High spatial uniformity

3) High temporal stability

4) Configurable orientations in illumination direction

5) Variety of output collimation angles

6) Variable illumination areas

7) Easy to use, turn-key systems with full software control

8) Multiple add-ons and accessories such as fiber optic cables, beam turning units, filters and more.

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Sun Level: 1.3 Suns AM0 max
Target size: 50x50mm at 1 sun
Spectral Match: ASTM E927-19. Class A from 350-1400nm
Non-uniformity : Class A <2% over 50x50mm
Temporal instability: Class A <2%
Working distance: 380mm +/- 30mm typical
Compliance: CE marked
300W Xenon lamp
Includes attenuator, HAS and 601 series supply
12,638.00
In stock
Sun Level: 1.3 Suns AM0 max
Target size: 50x50mm at 1 sun
Spectral Match: ASTM E927-19. Class A from 350-1400nm
Non-uniformity : Class A <2% over 50x50mm
Temporal instability: Class A <2%
Working distance: 380mm +/- 30mm typical
Compliance: CE marked
300W Xenon lamp
Includes attenuator, HAS and 601 series supply
12,638.00 12638.0 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 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


This stand enables 2.5k fully reflective solar simulators to project their output beam downwards onto a horizontal illumination table which makes it ideal for solar cell testing. The beam is projected down onto a built-in sample platform (not shown) where the sample such as a solar cell is placed. 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).

Without the Downward Facing Vertical Stand, a Solar Simulator projects the beam parallel to the floor at cells mounted vertically.
Please speak with your authorized Sciencetech technical sales staff member to discuss any potential customization options you require.

Product may not be exactly as shown
2,700.00
This stand enables 2.5k fully reflective solar simulators to project their output beam downwards onto a horizontal illumination table which makes it ideal for solar cell testing. The beam is projected down onto a built-in sample platform (not shown) where the sample such as a solar cell is placed. 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).

Without the Downward Facing Vertical Stand, a Solar Simulator projects the beam parallel to the floor at cells mounted vertically.
Please speak with your authorized Sciencetech technical sales staff member to discuss any potential customization options you require.

Product may not be exactly as shown
2,700.00 2700.0 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.

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

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


This accessory is a base and post assembly designed to work with 2" diameter optical assemblies. The PM90 allows a 2" optical assembly to be held vertically or horizontally and rotated through any angle, and is adjustable to any height above the included base plate from 0 to 12". The included 6x12" base plate can be secured to a standard optical table or left free standing. This accessory can be used with Sciencetech's A1 and A4 Solar LightLine solar simulators to allow for horizontal or vertical operation (and at any angle) by holding to output optic at the end of the 4 foot light guide.
400.00
This accessory is a base and post assembly designed to work with 2" diameter optical assemblies. The PM90 allows a 2" optical assembly to be held vertically or horizontally and rotated through any angle, and is adjustable to any height above the included base plate from 0 to 12". The included 6x12" base plate can be secured to a standard optical table or left free standing. This accessory can be used with Sciencetech's A1 and A4 Solar LightLine solar simulators to allow for horizontal or vertical operation (and at any angle) by holding to output optic at the end of the 4 foot light guide.
400.00 400.0 USD
Price Valid only in North America


Class: AAA (ASTM E927-19, IEC 60904-9)
Target size: 50x50mm at 1 sun
Working distance: 380mm (with beam turning unit CTBT-3)
Included Power Supply: (601-150) 150W Adjustable Power with Touchscreen Control
CE Compliant
Also included are a 150W xenon arc lamp, filter holder, height-adjustable stand, manual attenuator, manual shutter, beam turner, and testing report.

Available Air Mass filters include AM1.0, AM1.5D, and AM1.5G. Other spectral matches are possible. Please contact us for more information.
7,539.00
In stock
Class: AAA (ASTM E927-19, IEC 60904-9)
Target size: 50x50mm at 1 sun
Working distance: 380mm (with beam turning unit CTBT-3)
Included Power Supply: (601-150) 150W Adjustable Power with Touchscreen Control
CE Compliant
Also included are a 150W xenon arc lamp, filter holder, height-adjustable stand, manual attenuator, manual shutter, beam turner, and testing report.

Available Air Mass filters include AM1.0, AM1.5D, and AM1.5G. Other spectral matches are possible. Please contact us for more information.
7,539.00 7539.0 USD
Price Valid only in North America


Class: AAA (ASTM E927-19, IEC 60904-9)
Target size: 50x50mm at 2 sun
ND filter for 1 sun operation included
Working distance: 380mm (with beam turning unit CTBT-3)
Included Power Supply: (601-300) 300W Adjustable Power with Touchscreen Control
CE compliant
Also included are a 300W xenon arc lamp, filter holder, height-adjustable stand, manual attenuator, manual shutter, beam turner, and testing report.

Available Air Mass filters include AM1.0, AM1.5D, and AM1.5G. Other spectral matches are possible. Please contact us for more information.
7,765.00
In stock
Class: AAA (ASTM E927-19, IEC 60904-9)
Target size: 50x50mm at 2 sun
ND filter for 1 sun operation included
Working distance: 380mm (with beam turning unit CTBT-3)
Included Power Supply: (601-300) 300W Adjustable Power with Touchscreen Control
CE compliant
Also included are a 300W xenon arc lamp, filter holder, height-adjustable stand, manual attenuator, manual shutter, beam turner, and testing report.

Available Air Mass filters include AM1.0, AM1.5D, and AM1.5G. Other spectral matches are possible. Please contact us for more information.
7,765.00 7765.0 USD
Price Valid only in North America


Class: ABA
Spot size: 25 mm (1”) diameter at 1 sun
Working distance: 100-130mm (4-5”) from exit port
Spot size (with optional beam turner): 25 mm (1”) at 1 sun
Working distance (with optional beam turner): 40-70mm (1.5-3”) from output port
Collimation: 1 degree half angle
Sciencetech Power Supply: (601-150) Adjustable Power Supply with Touchscreen Control

The SF-150-B is a low cost 150W solar simulator system for applications requiring a more collimated beam or more UV production than provided by our SLB series. The SF-150-B includes arc lamp housing, bulb, power supply with igniter, filter holder, manual shutter, and UV fused silica lenses.

Available Air Mass filters include AM0, AM1.0, AM1.5 direct and global, and AM2.0. Other filters such as dichroic filters and bandpass filters are available for further modification of the spectrum. Filters are sold separately; please specify which filters should be sent with the solar simulator when ordering.

*The SF-150B can produce up to 50mm (2") diameter spot size at 1 sun, but will reduce the specifications to Class CBA, with a working distance <25mm (1") from exit port.

Please speak with your authorized Sciencetech Technical Sales Staff for further details and a full range of options.
6,314.00
In stock
Class: ABA
Spot size: 25 mm (1”) diameter at 1 sun
Working distance: 100-130mm (4-5”) from exit port
Spot size (with optional beam turner): 25 mm (1”) at 1 sun
Working distance (with optional beam turner): 40-70mm (1.5-3”) from output port
Collimation: 1 degree half angle
Sciencetech Power Supply: (601-150) Adjustable Power Supply with Touchscreen Control

The SF-150-B is a low cost 150W solar simulator system for applications requiring a more collimated beam or more UV production than provided by our SLB series. The SF-150-B includes arc lamp housing, bulb, power supply with igniter, filter holder, manual shutter, and UV fused silica lenses.

Available Air Mass filters include AM0, AM1.0, AM1.5 direct and global, and AM2.0. Other filters such as dichroic filters and bandpass filters are available for further modification of the spectrum. Filters are sold separately; please specify which filters should be sent with the solar simulator when ordering.

*The SF-150B can produce up to 50mm (2") diameter spot size at 1 sun, but will reduce the specifications to Class CBA, with a working distance <25mm (1") from exit port.

Please speak with your authorized Sciencetech Technical Sales Staff for further details and a full range of options.
6,314.00 6314.0 USD
Price Valid only in North America


Class: AAA
Spot size: 25 mm (1”) diameter at 1 sun*
Working distance: 100-130mm (4-5”) from exit port
Spot size (with optional beam turner): 25 mm (1”) at 1 sun
Working distance (with optional beam turner): 40-70mm (1.5-2.5”) from output port
Collimation: 1 degree half angle
Sciencetech Power Supply: (601-300) 300W Adjustable Power Supply with Touchscreen Control

The SF-300-A is a low cost 300W solar simulator system for applications requiring a more collimated beam or more UV production than provided by our SciSun series. The SF-300-A includes arc lamp housing, bulb, power supply with igniter, filter holder, manual shutter, and UV fused silica lenses.

Available Air Mass filters include AM0, AM1.0, AM1.5 direct and global, and AM2.0. Other filters such as dichroic filters and bandpass filters are available for further modification of the spectrum. Filters are sold separately; please specify which filters should be sent with the solar simulator when ordering.
An option for fiber optic illumination is available, but requires an additional condenser and fiber mount.

*Spot size can be increased to 50mm (2") but will reduce the specifications to Class ABA. Power density on a target can be as high as 2.5 suns in the absence of an Air Mass filter.

Please speak with your authorized Sciencetech Technical Sales Staff for further details and a full range of options.
6,850.00
In stock
Class: AAA
Spot size: 25 mm (1”) diameter at 1 sun*
Working distance: 100-130mm (4-5”) from exit port
Spot size (with optional beam turner): 25 mm (1”) at 1 sun
Working distance (with optional beam turner): 40-70mm (1.5-2.5”) from output port
Collimation: 1 degree half angle
Sciencetech Power Supply: (601-300) 300W Adjustable Power Supply with Touchscreen Control

The SF-300-A is a low cost 300W solar simulator system for applications requiring a more collimated beam or more UV production than provided by our SciSun series. The SF-300-A includes arc lamp housing, bulb, power supply with igniter, filter holder, manual shutter, and UV fused silica lenses.

Available Air Mass filters include AM0, AM1.0, AM1.5 direct and global, and AM2.0. Other filters such as dichroic filters and bandpass filters are available for further modification of the spectrum. Filters are sold separately; please specify which filters should be sent with the solar simulator when ordering.
An option for fiber optic illumination is available, but requires an additional condenser and fiber mount.

*Spot size can be increased to 50mm (2") but will reduce the specifications to Class ABA. Power density on a target can be as high as 2.5 suns in the absence of an Air Mass filter.

Please speak with your authorized Sciencetech Technical Sales Staff for further details and a full range of options.
6,850.00 6850.0 USD
Price Valid only in North America


Class: ABA
Spot size: 50 mm (2”) diameter at 1 sun
Working distance: 100-130mm (4-5”) from exit port
Spot size (with optional beam turner): 50 mm (2”) at 1 sun
Working distance (with optional beam turner): 40-70mm (1.5-2.5”) from output port
Collimation: 1 degree half angle
Sciencetech Power Supply: (601-300) 300W Adjustable Power Supply with Touchscreen Control

The SF-300-B is a low cost 300W solar simulator system for applications requiring a more collimated beam or more UV production than provided by our SLB series. The SF-300-B includes arc lamp housing, bulb, power supply with igniter, filter holder, manual shutter, and UV fused silica lenses.

Available Air Mass filters include AM0, AM1.0, AM1.5 direct and global, and AM2.0. Other filters such as dichroic filters and bandpass filters are available for further modification of the spectrum. Filters are sold separately; please specify which filters should be sent with the solar simulator when ordering.
An option for fiber optic illumination is available, but requires an additional condenser and fiber mount.

*Power density on a target can be as high as 2.5 suns in the absence of an Air Mass filter.

Please speak with your authorized Sciencetech Technical Sales Staff for further details and a full range of options.
6,495.00
In stock
Class: ABA
Spot size: 50 mm (2”) diameter at 1 sun
Working distance: 100-130mm (4-5”) from exit port
Spot size (with optional beam turner): 50 mm (2”) at 1 sun
Working distance (with optional beam turner): 40-70mm (1.5-2.5”) from output port
Collimation: 1 degree half angle
Sciencetech Power Supply: (601-300) 300W Adjustable Power Supply with Touchscreen Control

The SF-300-B is a low cost 300W solar simulator system for applications requiring a more collimated beam or more UV production than provided by our SLB series. The SF-300-B includes arc lamp housing, bulb, power supply with igniter, filter holder, manual shutter, and UV fused silica lenses.

Available Air Mass filters include AM0, AM1.0, AM1.5 direct and global, and AM2.0. Other filters such as dichroic filters and bandpass filters are available for further modification of the spectrum. Filters are sold separately; please specify which filters should be sent with the solar simulator when ordering.
An option for fiber optic illumination is available, but requires an additional condenser and fiber mount.

*Power density on a target can be as high as 2.5 suns in the absence of an Air Mass filter.

Please speak with your authorized Sciencetech Technical Sales Staff for further details and a full range of options.
6,495.00 6495.0 USD
Price Valid only in North America


This solar simulator is based on a Fresnel lens to collimate the light beam from the 1.6kW Xe ozone-free arc lamp source, resulting in highly collimated illumination of the target spot. The spectral distribution of the xenon light source, along with the use of specially calibrated air mass filters, closely simulates the sun’s true spectral distribution in various conditions on Earth.

Works best with 1 Sun AM1.5D filters (not included). Other AM filters are available but they may change the target size achievable. Contact a Sciencetech technical sales representative for details.

Target: up to 20 cm (8") diameter (depends on required irradiance level)
Collimation: 0.7° half angle (70% of irradiance is within)
Non-uniformity: Class B
Lamp: 1.6kW ozone-free Xe short arc
Lamp Housing: air cooled
Illumination Direction: horizontal
Power Supply: 611-1.6k adjustable touchscreen supply
Filter Mounting: for one 7.6 × 7.6 cm (3" × 3") filter (not included)

Includes: 20 cm (8") diameter UV transmitting Fresnel lens, intensity mask to produce class B (<5%) non-uniformity up to 8" diameter, igniter.

Optional accessories: vertical beam turning unit, light intensity stabilizer, integrated motorized shutter
35,750.00
In stock
This solar simulator is based on a Fresnel lens to collimate the light beam from the 1.6kW Xe ozone-free arc lamp source, resulting in highly collimated illumination of the target spot. The spectral distribution of the xenon light source, along with the use of specially calibrated air mass filters, closely simulates the sun’s true spectral distribution in various conditions on Earth.

Works best with 1 Sun AM1.5D filters (not included). Other AM filters are available but they may change the target size achievable. Contact a Sciencetech technical sales representative for details.

Target: up to 20 cm (8") diameter (depends on required irradiance level)
Collimation: 0.7° half angle (70% of irradiance is within)
Non-uniformity: Class B
Lamp: 1.6kW ozone-free Xe short arc
Lamp Housing: air cooled
Illumination Direction: horizontal
Power Supply: 611-1.6k adjustable touchscreen supply
Filter Mounting: for one 7.6 × 7.6 cm (3" × 3") filter (not included)

Includes: 20 cm (8") diameter UV transmitting Fresnel lens, intensity mask to produce class B (<5%) non-uniformity up to 8" diameter, igniter.

Optional accessories: vertical beam turning unit, light intensity stabilizer, integrated motorized shutter
35,750.00 35750.0 USD
Price Valid only in North America


This solar simulator is based on a Fresnel lens to collimate the light beam from the 1.6kW Xe ozone-free arc lamp source, resulting in highly collimated illumination of the target spot. The spectral distribution of the xenon light source, along with the use of specially calibrated air mass filters, closely simulates the sun’s true spectral distribution in various conditions on Earth.

Works best with 1 Sun AM1.5D filters (not included). Other AM filters are available but they may change the target size achievable. Contact a Sciencetech technical sales representative for details.

Target: up to 20 cm (8") diameter (depends on required irradiance level)
Collimation: 0.7° half angle (70% of irradiance is within)
Non-uniformity: ±25% (not classified)
Lamp: 1.6kW ozone-free Xe short arc
Lamp Housing: air cooled
Illumination Direction: horizontal
Power Supply: 611-1.6k adjustable touchscreen supply
Filter Mounting: for one 7.6 × 7.6 cm (3" × 3") filter (not included)

Includes: 20 cm (8") diameter UV transmitting Fresnel lens, igniter.

Optional accessories: vertical beam turning unit, light intensity stabilizer, integrated motorized shutter
22,000.00
This solar simulator is based on a Fresnel lens to collimate the light beam from the 1.6kW Xe ozone-free arc lamp source, resulting in highly collimated illumination of the target spot. The spectral distribution of the xenon light source, along with the use of specially calibrated air mass filters, closely simulates the sun’s true spectral distribution in various conditions on Earth.

Works best with 1 Sun AM1.5D filters (not included). Other AM filters are available but they may change the target size achievable. Contact a Sciencetech technical sales representative for details.

Target: up to 20 cm (8") diameter (depends on required irradiance level)
Collimation: 0.7° half angle (70% of irradiance is within)
Non-uniformity: ±25% (not classified)
Lamp: 1.6kW ozone-free Xe short arc
Lamp Housing: air cooled
Illumination Direction: horizontal
Power Supply: 611-1.6k adjustable touchscreen supply
Filter Mounting: for one 7.6 × 7.6 cm (3" × 3") filter (not included)

Includes: 20 cm (8") diameter UV transmitting Fresnel lens, igniter.

Optional accessories: vertical beam turning unit, light intensity stabilizer, integrated motorized shutter
22,000.00 22000.0 USD
Price Valid only in North America


This solar simulator is based on a Fresnel lens to collimate the light beam from the 3.0kW Xe ozone-free arc lamp source, resulting in highly collimated illumination of the target spot. The spectral distribution of the xenon light source, along with the use of specially calibrated air mass filters, closely simulates the sun’s true spectral distribution in various conditions on Earth.

Works best with 1 Sun AM1.5D filters (not included). Other AM filters are available but they may change the target size achievable. Contact a Sciencetech technical sales representative for details.

Target: up to 28 cm (11") diameter (depends on required irradiance level)
Collimation: 0.7° half angle (70% of irradiance is within)
Non-uniformity: Class B
Lamp: 3.0kW ozone-free Xe short arc
Lamp Housing: air cooled
Illumination Direction: horizontal
Power Supply: 611-1.6k adjustable touchscreen supply
Filter Mounting: for one 15 × 15 cm (6" × 6") filter (not included)

Includes: 30 cm (12") diameter UV transmitting Fresnel lens, intensity mask to produce class B (<5%) non-uniformity up to 11" diameter, igniter.

Optional accessories: vertical beam turning unit, light intensity stabilizer, integrated motorized shutter
50,050.00
In stock
This solar simulator is based on a Fresnel lens to collimate the light beam from the 3.0kW Xe ozone-free arc lamp source, resulting in highly collimated illumination of the target spot. The spectral distribution of the xenon light source, along with the use of specially calibrated air mass filters, closely simulates the sun’s true spectral distribution in various conditions on Earth.

Works best with 1 Sun AM1.5D filters (not included). Other AM filters are available but they may change the target size achievable. Contact a Sciencetech technical sales representative for details.

Target: up to 28 cm (11") diameter (depends on required irradiance level)
Collimation: 0.7° half angle (70% of irradiance is within)
Non-uniformity: Class B
Lamp: 3.0kW ozone-free Xe short arc
Lamp Housing: air cooled
Illumination Direction: horizontal
Power Supply: 611-1.6k adjustable touchscreen supply
Filter Mounting: for one 15 × 15 cm (6" × 6") filter (not included)

Includes: 30 cm (12") diameter UV transmitting Fresnel lens, intensity mask to produce class B (<5%) non-uniformity up to 11" diameter, igniter.

Optional accessories: vertical beam turning unit, light intensity stabilizer, integrated motorized shutter
50,050.00 50050.0 USD
Price Valid only in North America


This solar simulator is based on a Fresnel lens to collimate the light beam from the 3.0kW Xe ozone-free arc lamp source, resulting in highly collimated illumination of the target spot. The spectral distribution of the xenon light source, along with the use of specially calibrated air mass filters, closely simulates the sun’s true spectral distribution in various conditions on Earth.

Works best with 1 Sun AM1.5D filters (not included). Other AM filters are available but they may change the target size achievable. Contact a Sciencetech technical sales representative for details.

Target: up to 28 cm (11") diameter (depends on required irradiance level)
Collimation: 0.7° half angle (70% of irradiance is within)
Non-uniformity: ±25% (not classified)
Lamp: 3.0kW ozone-free Xe short arc
Lamp Housing: air cooled
Illumination Direction: horizontal
Power Supply: 611-1.6k adjustable touchscreen supply
Filter Mounting: for one 15 × 15 cm (6" × 6") filter (not included)

Includes: 30 cm (12") diameter UV transmitting Fresnel lens, igniter.

Optional accessories: vertical beam turning unit, light intensity stabilizer, integrated motorized shutter
30,000.00
In stock
This solar simulator is based on a Fresnel lens to collimate the light beam from the 3.0kW Xe ozone-free arc lamp source, resulting in highly collimated illumination of the target spot. The spectral distribution of the xenon light source, along with the use of specially calibrated air mass filters, closely simulates the sun’s true spectral distribution in various conditions on Earth.

Works best with 1 Sun AM1.5D filters (not included). Other AM filters are available but they may change the target size achievable. Contact a Sciencetech technical sales representative for details.

Target: up to 28 cm (11") diameter (depends on required irradiance level)
Collimation: 0.7° half angle (70% of irradiance is within)
Non-uniformity: ±25% (not classified)
Lamp: 3.0kW ozone-free Xe short arc
Lamp Housing: air cooled
Illumination Direction: horizontal
Power Supply: 611-1.6k adjustable touchscreen supply
Filter Mounting: for one 15 × 15 cm (6" × 6") filter (not included)

Includes: 30 cm (12") diameter UV transmitting Fresnel lens, igniter.

Optional accessories: vertical beam turning unit, light intensity stabilizer, integrated motorized shutter
30,000.00 30000.0 USD
Price Valid only in North America
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