FYTRONIX SS7000 SOLAR SIMULATOR

LSS SOLAR SIMULATOR SPECTRAL SOLAR IRRADIANCE MATHING

SPECTRAL SOLAR IRRADIANCE OF LSS SOLAR SIMULATOR 

FYTRONIX SS7500 SOLAR SIMULATOR 

• Test of Pervoskite, Quantum dot or dye synsitized solar cells.  

• Test Photocatalystic activity 

Specifications  

FYTRONIX SOLAR SIMULATOR 7000

Solar simulator Class AAA

Lamp type Xenon

Output Beam Size range:3x3 inch to 4x4 inch

Beam uniformity ≤2

Beam divergence, Half Angle ≤±4o

Typical output power 100 mW/cm2 (1 SUN) ±20 Adjustable

Spectral Math Classification A (IEC 60904-9 2007) A (JIS C8912) A (ASTM) E927-10)

Temporal Instability ≤0.5% STI≤2.0% LTI

Temporal Instability Classification A (IEC 60904-9 2007) A (JIS C8912) A (ASTM) E927-10)

Uniformity ≤2%

Uniformity Classification A (IEC 60904-9 2007) A (JIS C8912) A (ASTM) E927-10)

Conformity with IEC and JIS standards for spectral matching non- uniformity and temporal instability is available.

Working Distance 12.0 ±0.5 Inch to 18.0±0.5 inch

Line regulation 1E-4

Working voltage:220-240 Volts UPS pf best back up

OPTIONALLY FYTRONIX HAS the following SOLAR SIMULATORS

FYTRONIX SOLAR SIMULATORS CAN BE UPGRADE FOR FUTURE

AAA CLASS LIGHT ADJUSTABLE SOLAR SIMULATOR

System automatically set light intensity to any power illumination from 0.1-100 mW/cm2 and measure Current-voltage, Power-voltage, lnI-Voltage, Isc-Intensity, Photovoltaic mechanism Analysis 

LIFE TIME OF light source is longer than conventional Xenon lamp.

Life time of Xenon is 1500 h while life time of HYBRID light sour is 8000h.

This means that life time of Xenon is 1500/24=62.5 day =2 Month if solar simulator continuously used. After 2 months, you must change Xenon lamp.

BUT, FYTRONIX Hybrid light source has 8000/24=333= 5 Months

Specifications

• compliance standard: EN 60904-9

• Light source: Hybrid light comprising of Xenon+LED

• spectral match (each interval): 0.75 – 1.25 (class A)

• Irradiance Spatial Non uniformity: <2% (class A)

• temporal instability: <2% (class A)

• effective irradiance: 100 mW/cm² ± 2 mW/cm²

• emission bandwidth: 300 - 1100 nm

• irradiance aperture: 30 mm-50 mm dia.

• working distance: from 40 to 100 mm or more

• cooling system: internal fan

• power supply adapter: input 230 VAC, 50 Hz, output 12 VDC, 5A

LED SOLAR SIMULATOR 

LED Solar Simulator provides illumination approximating natural sunlight (AM1.5G) in the wavelength range of 400 to 1100 nm. It assures controlled and repeatable laboratory conditions of spectral content, spatial uniformity and temporal stability for photo-electrochemical experiments meeting class AAA specification. 

Unlike traditional solar simulator based on Xenon short-arc lamp and metal halide discharge lamp, this concept is using high-power LED technology. 

The sun spectrum is matched using 6 LED wavelengths, sufficiently spaced apart to provide a uniform light. 

The main advantages of such a solution are:

(i) low operating costs due to instant on/off

(ii) low maintenance costs because of the extended life of the LEDs; 

(iii) small size and low weight; 

(iv) low price

(v) Long life time of light source more than 10000 h 

SPECIFICATIONS


• compliance standard: EN 60904-9

• spectral match (each interval): 0.75 – 1.25 (class A)

• Irradiance Spatial Non uniformity: <2% (class A)

• temporal instability: <2% (class A)

• effective irradiance: 100 mW/cm² ± 2 mW/cm²

• emission bandwidth: 400 - 1100 nm

• irradiance aperture: 30 mm dia.

• working distance: 10 mm

• number of high-power LEDs: 6

• weight: 1673 g

• cooling system: internal fan

• power supply adapter: input 230 VAC, 50 Hz, output 12 VDC, 5A

SOLAR IV CHARACTERIZATION SYSTEM has the following capabilities

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 0.1 W/cm2 to 1500 W/m2. 

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

The system contains the following elements:

- Maintenance Free Solar Simulator (FSS)

I-V system, source meter

Light source: Hybrid Light source, LED source

Voltage range: -20 V to +20 V

Current range: 10 nA  to 500 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

Easy adjust light adjustment

Can be mounted pointing up, down, or to the side with 90o rotational accessory Temperature controlled for stable output