FYTRONIX 9000 AAA CLASS SOLAR SIMULATOR

FYTRONIX HYBRID LAMP SOURCE VS XENON

FYTRONIX light source do not have any spark and it is better than Xenon lamp

LSS SOLAR IV CHARACTERIZATION SYSTEM includes

SOLAR SIMULATOR

I-V CHARACTERIZATION SYSTEM, SOURCEMETER

SAMPLE HOLDER 

CONNECTIONS 

SOFTWAREs

Solar IV characterization Software

Solar Life-Time Software

Transient photocurrent software

Photovoltaic mechanism analysis software

Solar Cell I-V Characterization System

This system analyze all photovoltaic and photoconducting characteristics of all solar cells such Dye sensitized solar cells, Quantum dots solar cells, Organic solar Cells, Perovskite Solar Cells, Solar Silicon Solar cells, Thin films solar Cells under various solar light intensities from 10 W/cm2 to 1000 W/m2. 

This system is a complete current-voltage (I-V), current-time (I-t) and power-voltage (P-V) measurement environment. 

SPECIFICATIONS

Solar simulator specifications:

Bands: 400-500, 500-600, 600-700,

Light control: USB

Automatically intensity light Control: 0.1 to 1000 W/m2

Power Requirements: 230 VAC, 50 Hz, 300W

Operating Temp Range: 20°C to 30°C

Humidity :<85%, relative, non-condensing

Certificate: ISO 9001 :2015, CE CERTIFICATE

Illumination Area: 51mmX51mm

Total Power Output: 1.0 sun

Uniformity Classification:A - IEC 60904-9 2007, JIS C 8912,

Spectral Match3

Operating Temp Range: 20°C to 30°C

Solar IV characterization system specifications

-Controlled by :computer.

-Automatically measure: I-V characteristics from 1 W/cm2-1000 W /cm2 by adjusting light intensity with step of 1 mW/cm2 

-The intensity of solar simulator should automatically adjust by solar IV system

-Measure I-V characteristics curve of the device, Solar Cell I-V characteristic curve, Power-voltage curve, lsc-Solar

-Automatically measure open circuit voltage Voc and short circuit current, ISC , Shunt resistance (Rsh) • Conversion efficiency (n), Maximum power output (Pmax), Voltage at Pmax (Vmax), characteristic resistance, Rch , Fill factor (FF) • Series resistance (Rs)

-Measures automatically current-voltage (I-V) of solar cell under various solar lights

Source meter specifications

Voltage range: -20 V to +20 V

Current range: 10 nA to 150 mA

-Automatic shuttering system which automatically changes solar light from 1 W/m2 to 1000 W/m2

-Sample holder and it is comprised of two probes. Holder size should have 132.5mmx132.5mm.

-Software to control measurements and analysis of data.

I-V system, source meter

-Voltage range: -20 V to +20 V

-Current range: 10 nA to 150 mA

- I-V Solar IV software

- Solar cell probes

- Solar cell probes

- Calibrated Reference solar cell

-Factory calibrated AM1.5G spectral match

-Factory calibrated intensity

-Front panel LED Fault indication

-USB Communications

-Meets Class AAA specification for IEC 60904-9, JIS C 8912, and ASTM E 927-05

-2” X 2” illumination area at 1 sun

-PV Cell Placement Indicator

Delivery scopes:

-Solar simulators

-IV characterization system

-Source meter

-Sample holder

-Connections

-Solar IV characterization Software

-Solar Life-Time Software

-Transient photocurrent software

-Photovoltaic mechanism analysis software

Certified 

FYTRONIX Solar Simulator ships with a performance certificate according to the applicable ASTM, IEC and JIS standards 

PhotoVoltaic Calibration Lab

We are proud to house and manage one of the few commercial photovoltaic and calibration test laboratories in the world. The FYTRONIX Photovoltaic Calibration and Test Laboratory is accredited by NAC to the ISO/IEC 17025 Standard, using state of the art equipment for measurements in accordance with ASTM E948 and E1021. The lab welcomes requests for prototype PV device performance measurements or PV reference cell calibrations. Flexible scheduling and rapid turnaround time ensure minimal downtime to time sensitive devices. LSS solar simulator generates a continuous light spectrum corresponding to a class AAA spectrum. This system is designed to illuminate any type of solar cell up to 25 x 25 mm or more. LSS solar simulator generates a continuous light spectrum whose intensity varies from 1 W/m2 to 1000 W/m2.  The simulator and I-V measurement system are controlled by the computer. 

Common Measurements made in I/V Characterization of photovoltaic devices

Dark I/V measurements are commonly used to analyze the electrical characteristics of solar cells. Dark I/V measurements are more sensitive than light I/V measurements in determining parameters such as series resistance, shunt resistance, diode factor, and diode saturation currents. 

Solar simulator automatically determine the photovoltaic parameters as follows

Open circuit voltage (Voc)

Short Circuit current (Isc)

Fill factor (FF)

Voltage at Pmax (Vmax)

Current at Pmax (Imax) 

Maximum power output (Pmax)

Shunt resistance (Rsh) •

Series resistance (Rs) •

Characteristic  resistance of solar cell (Rch) •

Solar cell efficiency (n)

Solar simulator automatically determine the photovoltaic mechanism like monomolecular recombination mechanism, supra linear mechanism and etc.

LSS SOLAR SIMULATOR SYSTEM measures the followings

Solar Simulator system is controlled automatically by computer 

Solar Simulator system adjusts automatically the intensity of light 0.1 W/m2 -1000 W /m2  by any step, for example from 1 W/m2 to 1000 W/m2 with 1 W/m2.

Solar Simulator system automatically measures current-voltage (I-V) under various light intensities 

Solar Simulator system automatically measures power-voltage (P-V) under various light intensities 

Solar Simulator system automatically analyses photovoltaic mechanism  (I-V) under various light intensities 

TECHNICAL SPECIFICATIONS OF LSS AUTOMATIC SOLAR IV CHARACTERIZATION SYSTEM 

1. Solar Simulator system automatically is controlled by computer.

2. Solar Simulator system automatically measure I-V characteristics from 1 W/cm2 -1000 W /cm2 by adjusting light intensity with step of 1 mW/cm2.

3. The intensity of solar simulator should automatically adjust by solar IV system

4. Solar simulator system should simultaneously measure I-V characteristics curve of the device, Solar Cell I-V characteristic curve, Power-voltage curve, lsc-Solar light intensity curve and photovoltaic mechanism curve and should analyze photovoltaic mechanism and write type of the mechanism on computer screen. 

5. Solar Simulator should automatically measure open circuit voltage Voc and short circuit current, ISC , Shunt resistance (Rsh) • Conversion efficiency (n), Maximum power output (Pmax), Voltage at Pmax (Vmax), characteristic resistance, Rch ,  Fill factor (FF) • Series resistance (Rs)

6. Solar Simulator system measures automatically current-voltage (I-V) of solar cell under various solar lights

7. System should have a source meter having the specifications

Voltage range: -10 V to +10 V

Current range: 10 nA  to 150 mA 

8. System should have an  automatic shuttering system which automatically changes solar light from 1 W/m2 to 1000 W/m2.

9. System should have sample holder and it is comprised of two probes. Holder size should have 132.5mmx132.5mm.

10. System should have software to control measurements and analysis of data. 

11. Installing and training

SOFTWARE OF THE SYSTEM

System has two software, first characterize all photovoltaic parameters

Software measure all photovoltaic parameters of solar cells by computer. The system determine all photovoltaic parameters. Software of Solar Simulator system determine the following photovoltaic parameters such as short circuit current Isc, open circuit voltage Voc, maximum power Pmax, maximum current Imax, maximum voltage Vmax, efficiency , shunt resistance Rsh and series resistance Rs. Also ,system analyze the automatically the photovoltaic mechanism analysis.