FYTRONIX 9000 AAA CLASS SOLAR SIMULATOR

HOUSING OF SOLAR SIMULATOR ARE DESIGNED ACCORDING TO REQUESTED REQUIREMENTS

System icludes

1. Solar simulator

2. Sample Holder

3. Reference cell

4. Software

5. Sourcemeter

SYSTEM AUTOAMTIC ANALYZE PHOTOVOLTAIC MECHANISM OF SOLAR CELL

TECHNICAL DATA AND CALIBRATION RESULTS

SPECTRAL MATCHING TO SUN

SPECTRAL MATCHING OF FYTRONIX SOLAR SIMULATOR

SOLAR IV CHARACTERIZATION SYSTEM includes

Solar Simulator

I-V Characterization System, Sourcemeter

Sample Holder 

Connections 

SOFTWAREs

Solar IV characterization Software

Solar Photo Transient Current Software

SPECIFICATIONS 

FYTRONIX solar simulators use a single lamp design to meet Class A requirements with 1 SUN output power. FYTRONIX solar simulators are certified to Class AAA for all three of the following standards: 

Class: AAA IEC 60904-9 Edition 2 (2007), JIS 8904-9 (2017), and ASTM E927-10 (2015). 

• Spectral match: Class A 

• Spatial non-uniformity of irradiance, Class A 

• Temporal instability, Class A 

• Illuminance area: 50x50 mm diameter 

• Variable intensity for 1mW/cm2 to 1000 W(m2 (1 SUN) output by computer

Light source: Plasma light 

The intensity of plasma based solar simulator can be controlled from 1 mw/cm2 to 100 mw/cm2 with 1 step 

The intensity of solar light is  controlled by computer (USB communication) . The intensity of the solar simulator is automatically controlled by computer from 1 mw/cm2 to 100 mw/cm2 with 1 step or any step. 

Includes Class AAA calibration certificate for IEC, ASTM and JIS 

Solar Physics Sourcemeter

Solarphys Tech 

Voltage range: -20 V to +20 V

Voltage resolution: 0.001 V 

Current range:  50 pA to 250 mA 

-Sample Holder

Connection probes: two probe connection

Probe IV Tester

Sample holder for solar cell

Movable probe tip 

Both Side illumination 

Illumination Head Rotation: 360o  

- Calibrated Reference solar cell to calibrate output to 1 SUN 

Calibration procedure: (400-500nm, 500-600nm, 600-700nm, 700-800nm, 900-1100 nm which meets Class AAA specification for IEC 60904-9, JIS C 8912, and ASTM E 927-05 standards. 

Software 

I-V measurements 

P-V measurements 

lnI-V measurements 

Isc-P (irradiance) measurements 

Analyze photovoltaic mechanism 

Sample Holder 

All in one computer

Integrated Software for Solar Simulator and Sourcemeter Control

Solar IV Characterization software

Solar Life time software 

Transient photocurrent software 

Photovoltaic mechanism analysis software 

After the testing of samples, the results should be provided in a Tabulated format as well as plotted automatically.

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 1000 W/m2. 

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

SOLAR SIMULATOR SYSTEM

• Solar spectral spectrum is observed on the screen of the solar simulator controller when the measurement is performed.

• The solar simulator has  2 inch 90 degree light guide and the light is turned 360 degrees to the desired direction.

• The illumination area of the device is circular with a diameter of 50 mm

SOURCEMETER

• The sourcemeter must have a sourcemeter. The sourcemeter have an automatic current range and the current range should be in the range  50pA-250 mA. 

• The voltage range of the sourcemeter is ranging from  -20 V to +20 V.

• The intensity controller of solar simulator is 0- 1000 W/m2,0-1 SUN

• The solar simulator measures the IV characteristics of all solar cells (Dye sensitized solar cell, perovskite Solar Cells, Quantum dots solar cells, Organic solar cell, Silicon solar cells) and be able to perform the IV characteristics of the batteries under computer control.

• The solar simulator measures the current-voltage characteristics of the solar cell under 1

• The current-voltage (I-V) characteristics of the solar cell are measured with the software in the system. The solar cell's open circuit voltage Voc, short circuit current Isc, filling factor FF, maximum current Imax, maximum power Pmax and efficiency η, series resistance Rs, shunt resistance Rp and characteristic resistance Rch should be measured automatically. •

• A reference solar cell should be given with the solar simulator.

• The probe holder of the device should be measured in a way that the measurements of the solar cell 

SPECIFICATIONS OF SOLAR SIMULATOR SYSTEM

The device comply with the ASTM E 927-05 for uniformity classification, temporal stability and spectral match

Light illumination intensity range is adjustable 1000 W / m2

Device is automatically measure;

a. open circuit voltage (Voc)

b. short circuit current (Isc)

c. fill factor (FF)

d. voltage at Pmax (Vmax)

e. current at Pmax (Imax)

f. maximum output power (Pmax)

g. shunt resistance (Rsh)

h. series resistance (Rs)

i. solar cell characteristics resistance (Rch)

j. photoresponse (RR)

k. solar cell efficiency (n)

Solar system automatically perform I-V and P-V measurement under 1 SUN and multisuns.