Why Choose an LED solar simulator is LED PCBA board ?
FAQs
Packing & Delivery
Heyi Optical Control specialist inmultispectral LED PCBA boardsolutions, vise à accompagner et à vous servir à réaliser votre projet lumineux, avec ou sans modernisation LED de votre système d'éclairage et de votre moteur lumineux. Nous intervenons de la conception à l'industrialisation, Small and Medium Series, sur une gamme spectrale personnalisée, dimmable et réglable pour chaque longueur d'onde (l), depuis 230 à 1750 nm selon l'évolution et l'innovation des composants LED.
Class AAA Small Light Spot Solar Simulator
The 300-1750nm LED PCBA board is a small illumination area type solar simulator with class AAA performance. It is designed for advanced solar cell research utilizing small light spot measurement, such as perovskite solar cells.
Features
Class A irradiance spectral match
TheLED PCBA boardirradiance spectrum match is a key factor in solar simulators. To better evaluate the spectrum performance of a solar simulator, the IEC 60904-9 (2007) standard divided the solar spectrum into different segments with 100nm or 200nm bandwidth from 400nm to 1100 nm. However, with the development of high-efficiency solar cell technologies, the irradiance spectral match of the solar simulator is becoming increasingly necessary.
In 2020, IEC released the latest solar simulator evaluation standard, IEC 60904-9:2020, which evaluates the irradiance spectrum of the solar simulator with a broader wavelength range (300nm to 1200nm) and narrower band segments. For details on the evaluation method, please see our “Solar Simulator- Basic Knowledge and Working Principles” and the section “What is AAA solar simulator”. The Class A spectral match requires the deviation of each wavelength band to be within 0.75 to 1.25 for both the old and latest IEC 60904-9 standards. The spectral match evaluations of LED PCBA board by the old IEC 60904-9:2007 (Old, easier) or the latest IEC 60904-9:2020 (Latest, more difficult) both reach Class A from 300 nm to 1200 nm. This is due to Enlitech’s advanced AM 1.5G filter technology, which makes the irradiance spectrum and sustainability of the LED PCBA board solar simulator much better than other brand solar simulators at the same level.
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The wavelength range is from 300 nm to 1200 nm and is divided into 6 bands. It covers a much more extensive wavelength range, making it more challenging to achieve good classification. Even so, the still has outstanding spectral match performance, which is much better than the class A level. This proves that the critical spectral performance of the solar simulator is extraordinarily great, not constrained by its compact size design.
Class A spatial irradiance uniformity
The spatial irradiance uniformity is the second index for solar simulator classification. It is the most difficult of all the parameters. The spatial irradiance uniformity hot spot can greatly affect the power conversion efficiency testing result and misclassify the binning of the solar cells. LED PCBA board uses Enlitech’s advanced homogenizer technology, which can convert the irregular light beam spot into a uniform spatial beam illumination area and reduce the irradiance hot spot distributions. The spatial irradiance uniformity of the LED PCBA board solar simulator can achieve IEC, ASTM, and JIS standards’ class A level, which is ≦ 2% within 400 mm2. For more details, please see our technical article: “Solar Simulator- Basic Knowledge and Working Principles” and the section “What is AAA solar simulator”. The illumination area size of the solar simulator is quite suitable for many novel solar cell research projects, most of which begin from a small active area such as 2mm x 2 mm.
Class A spatial Uniformity of LED PCBA board solar simulator.
Class A irradiance temporal stability
The third important parameter is the temporal stability of irradiance over time. The temporal stability of the solar simulator’s output illumination directly affects the current-voltage (IV) tracing curve of the solar cell under test. Unstable light illumination on the device under test can impact the accuracy of the solar cell’s conversion efficiency value.
The 300-1200nmLED PCBA boardsolar simulator adopts a high-stability Xe lamp power supply system, which can maintain high temporal stability of the Xe lamp’s irradiance output without the need for an optical feedback control system.
Max irradiance intensity ≥ 1400 W/m2 (1.0 sun)
With a highly efficient optical design and components, the maximum output AM1.5G irradiance of the solar simulator can be over 1400 W/m² (> 1.0 sun). This is much higher than other compact size solar simulators, which are usually smaller than 1.2 sun (1200 W/m²).
According to IEC and ASTM standards, the characterization testing of PV and solar cells should be conducted under STC (Standard Testing Conditions). The STC conditions are an AM1.5G spectrum, 1000 W/m² (1sun), et 25 degrees C.
In general, the lamp of the solar simulator needs to be replaced when the output irradiance intensity of the solar simulator is less than one sun (1000 W/m²). This makes the characterization experiment of the solar cell unable to proceed under STC conditions. At this moment, the lamp is still emitting photons and irradiance, but it cannot reach 1000 W/m². The higher maximum output irradiance allows the LED PCBA board solar simulator to have a longer operating time period. This makes theLED PCBA boardmore cost-effective than other compact size solar simulators.
Emballage LED & Assemblée
LED Modules Chip on Board (ÉPI) solutions give you more power in a flexible design. With chips bonded directly on a MCPCB in close configurations for increased efficiency, LED Modules have the lowest thermal resistance for the best reliability on the market. Heyis light bars and arrays are suitable for both retrofit and new designs.
Heyis monochromatic or multispectral high illuminance LED lighting solutions
We are proud to integrate Innovations in Optics into our product range, specializing in ultra high brightness LED solutions and innovative spectral modules.Their products include adjustable spectrum multispectral LED sources, high irradiance modules (W/m²), solar simulators and light motors adapted to the markets:
These multispectral solutions offer optical uniformity, efficiency and thermal reliability to meet your most demanding applications. Discover Innovation In Optics products with high added value at the service of your innovative projects
LED solar simulators offer several advantages over arc lamp solar simulators. They are cheap to run with high efficiency LED lights and require zero maintenance. Arc lamps, by comparison, waste a considerable amount of energy as heat and need at least 30 minutes to warm up. The HEYI LED Solar Simulator Lamp is ready to use just a few minutes after you turn it on.
Spectral Irradiance
Spectral irradiance graph measured at 1000 W/m2 (1 Sun)Spectral irradiance graph measured at 0.7 Suns
The programmed spectral irradiance of theLED solar simulatoris at 1 Sun (left). Automatically, the lamp emits a total integrated power of 100 mW/cm2 (1 Sun) over the wavelength range 300 nm – 1100 nm. Our LED solar simulator achieves a Class A rating within each wavelength range for small area devices.
The HEYI LED Solar Simulator also allows you to adapt the output spectrum of your lamp as you desire. The graph on the right shows a spectral distribution at 0.7 Suns. This matches the AM 1.5G spectral shape, accounting for the portion above 1000 nm.
Spectral Match
The HEYI spectral match classification measured how well a solar simulator replicates the solar spectrum in terms of wavelength distribution. At 1 Sun irradiance at 8.5 cm, the Ossila LED Solar Simulator Lamp acheives Class A output in all wavelegnth catagories. At this irradiance, the Ossila LED Solar Simulator Lamp achieves a Class A classification for spectral irradiance.
Spectral irradiance classification graph
Spatial Uniformity
Solar simulators aim to distribute light uniformly across a sample, replicating sunlight. The spatial uniformity rating gives a measure of how uniform a solar simulator's distribution is.
At the working distance of 8.5 cm and output power of 1 sun, theHEYI LEDSolar Simulator Lamp achieves a spatial non-uniformity class A rating over a 15 mm diameter, making it ideal for testing small area devices. It also achieves a class B rating over 25 mm diameter, and a class C rating at 32 mm diameter, so you also can test larger cells with the HEYI LED solar simulator Lamp with ABA or ACA classification.
Spatial Uniformity
Temporal instability
The temporal instability classification measures the output consistency of a solar simulator.
The temporal instability graph proves that the light output from the solar simulator is stable over a long time frame, so it achieves a Class A Temporal Instability classification. This means you can conduct long-term experiments with theHEYI LEDSolar Simulator Lamp without worrying about spectral fluctuation. This includes measurement such as solar cell lifetime measurements or experiments to measure light degradation effects.
Temporal Stability
Mounting information
The solar simulator lamp comes with a permanent mounting bracket attached to the rear. This can be used to afix the lamp to a custom gantry. The dimensions and spacing of the mounting holes are shown below. All holes are unthreaded.
Solar simulatormounting bracket (left) and mounting hole locationsReduce Manufacturing Costs
Reduce Your Solar Cell Manufacturing Costs Through Better Testing Capabilities
Small-Area, Cost Effective Solar Simulation
Large-Area Testing to Any Size, No Matter How Large
Fully Automated Systems controlled by your Manufacturing Control System for High-Volume Production
Proven, Automated 24/7 Test Capability
Low Maintenance cost through long-life, >10,000 hour light sources
Full solar cell and panel electrical characterization—including IV curves, Isc, Voc, Imp, Vmp, FF
Superior stability and repeatability for all junctions
CustIn addition to standard packages and modules, Heyis fournit des circuits imprimés, Solutions de gestion thermiqueservices de test, designo ptimizati on, et intégrations complètes du système.LED Drive Technology enabled continuous current control of LEDs, <0.1% light stability at low cost
Heyis’ Programmable LED Solar Simulator (LED Modules) Pre-budgetary Quote Questionnaire
Q: When will you arrange the production?
A:We usually arrange the production immediately after receiving your payment if we have the item in stock. Otherwise, please confirm with us for lead time.
Q: What is your accepted payment type? A:Wire transfer, Paypal and Western Union, and Alibaba Trade Assurance.We only accept Paypal and Western Union, and Alibaba Trade Assurance for payment amounts below USD400.
Q: What logistic forwarder do you usually work with? A:We work with EMS, TNT, UPS, FEDEX and other logistric forwarders. Assigned your own forwarder for shipment is available.
Q:Is there any minimum order quantity (MOQ) requirement for the PCB Assembly order?
A:Generally, there is no minimum order quantity (MOQ) requirement for the pcb assembly order.
LED Modules:
1.What solar cell technologies are you interested in? How many junctions?
2. Do you need continuous / pulsed operation or pulsed-only?
3. What is the length and width (or diameter) of the illuminated area?
4. What spectra is of interest to you? AM0? AM1.5?
5. What power levels are of interest to you? AM0? AM1.5? Low Intensity?
6. What performance metrics are of interest to you? AIAA? Class A+AA? Class AAA? Class BBB?
7. please email us athehualan@chyingfeng.com to claim your 18-month warranty. Request sent to owner.
8.What is the need date for your system delivery? For your testing?
Module LED de simulateur solaire 200-1750 nm
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Class A spatial Uniformity of LED PCBA board solar simulator.
