Sciencetech, Inc.
Sciencetech Inc., a Canadian corporation, was formed in 1985 to serve the optical instrumentation market specifically in area of spectroscopic instrument design. We have designed hundreds of instruments with application in medicine, materials research, industrial processes, and space science. Our business includes new product development, small to medium quantity manufacturing facilities, and a line of optical instruments for analytical research.
- (519) 644-0135
- (519) 644-0136
- sales@sciencetech-inc.com
- 1450 Global Drive
London, Ontario N6N 1R3
Canada
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Products
Applications
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FIber Based Solar Simulator
Provides up to 12 suns class B non-uniformity over a 12.5 mm diameter with the A4 Light Line and class C uniformity can be achieved over 18mm diameter both with a working distance of 25 cm. Provides up to 4 suns class B non-uniformity over a 12.5 mm diameter with the A1 Light Line with a working distance of 25 cm.
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Flash Solar Simulators
Sciencetech manufactures a range of flash solar simulatorsSee the Flash Solar Simulator Overview to compare products across different product lines.
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Incandescent Light Sources
Collimated, uniform, 1 inch diameter output beamSupports 75W-300W QTH LampsSupports xenon, mercury, & mercury-xenon arc lampsForced Air CooledRefractive condensing optics attachments availableVariable power supply (purchased separately) with optical feedback (option)Vertically mounted arc lampSide exit port with back spherical reflector
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Modular Spectroscopy Equipment
Sciencetech offers a large line of spectroscopy equipment, for an overview of Sciencetech''s modular spectroscopy equipment see the chart at the bottom of page
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Solar Simulation
Sciencetech solar simulators produce high intensity, uniform illumination on a target area. Typically, high power solar simulators use an ellipsoidal reflector to capture light from an arc lamp source inside the reflector, an arrangement that results in a light pattern with a bright outer region and a dark center. This non-uniformity is un- acceptable in many solar simulator applications and as a result, forces many of our solar simulator competitors to use designs involving diffusers to reduce the non-uniformity. This results in a reduction of intensity and a dis- tortion of the spectrum on the target area.
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Calibration Light Sources
An adjustable mount for Sciencetech''s line of calibration pen lamps.Power supply and pen lamp are not included. See the calibration sources brochure for more information.
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Complete Testing Solutions
System includes a lamp and monochromator for a tunable light source, which is coupled to a high sensitivity source meter with measurement software. This user-friendly system is the most powerful Spectral Response system currently on the market, but its true power is the ease of upgrading from the base PTS-1 to the more powerful PTS-2-QE (Quantum Efficiency) or PTS-3-CPM (Constant Photocurrent Method). Designed for researchers who have limited budgets but want to start work immediately, this allows the ability to do baseline studies until additional funding for the full QE or CPM system becomes available.
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Power Meters and Calibration Cells
The Solar Reference Cell consist of a 20 x 20 mm monocrystalline silicon Photovoltaic Cell encased in a 92 x 70 x 16 mm metal enclosure with a protective quartz window and a temperature sensor. The temperature sensor is a 100 ohm platinum Resistance Temperature Detector (RTD).The Solar Reference Cells come with a Certificate of Calibration and compatible set of connecting cables. The following parameters of the reference cell are certified: Isc, Imax, Voc, Vmax, Pmax, Area, Fill Factor and Efficiency. The certification is accredited by NIST to the ISO-17025 standard and is traceable both to the National Renewable Energy Laboratory (NREL), and to the International System of Units (SI). A compatible cable set is also supplied with each Solar Reference Cell.
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Large Area Solar Simulators
The LASI Beam Turner assembly allows the output of the LASI to be projected horizontally. It attaches to to the standard LASI downward facing stand that is included in the base LASI system.
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Highly Collimated Solar Simulators
This solar simulator is based on a Fresnel lens to collimate the light beam from the arc lamp source to infinity, which results in highly collimated illumination of the target spot. A 2.5kW xenon ozone free lamp is used as the light source. The spectral distribution of the xenon light source, along with the use of specially calibrated AirMass filters, closely simulates the sun’s true spectral distribution in various conditions on Earth.
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Current-Voltage Measurement System
Sciencetech''s IV Testers are electrical current-voltage measurement systems used to characterize photovoltaic cell performance. This current-voltage tester works by sampling various current versus voltage combinations of the photovoltaic cell with a variable impedence load.This IV Test system can measure electrical power from photovoltaic cells up to 20W. The voltage envelope is limited to 20V and the current to 1A. A higher power version, up to 60W, is available. In general, the limitation on this model is the 1A current limit: if your solar cell generates more than 1A, we recommend upgrading to the 60W version.
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Current-Voltage Measurement System
The SSIVT is an electrical current-voltage measurement system used to characterize photovoltaic cell performance. This current-voltage tester works by sampling various current versus voltage combinations of the photovoltaic cell with a variable impedence load. The performance of the photovoltaic cell is determined by measuring this output I-V relationship while it is being illuminated.
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Fully Reflective Solar Simulators
Sciencetech manufactures four high power versions of class AAA fully reflective solar simulators. Sciencetech''s proprietary fully reflective design uses metal coated mirrors and passes the whole spectrum, no compromise. This is a distinct advantage over refractive based systems that are limited by the properties of the transparent material used.
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Far Infrared Systems
Far-Infrared and terahertz (THz) radiation is the spectral region at the long wavelength end of the infrared and the short end of the microwave region, also known as the sub-millimeter wavelength spectral region. Recently, there has been an explosion of interest in THz applications as the radiation generated can penetrate various materials. THz light is commonly used in materials science, security, pharmaceutical com- pound analysis, biomedical imaging, superconducting materials, astronomy, and particle physics research.
