International
Solar simulators for irradiance exposure
Yüklə 0,72 Mb. Pdf görüntüsü
|
- Bu səhifədəki naviqasiya:
- Uncertainty of temporal instability Measurement uncertainty shall be stated. 5.5 AM1.5 spectral coverage (SPC)
- 5.6 AM1.5 spectral deviation (SPD)
- 6 Name plate and data sheet
| 5.4.3.3
Solar simulators for irradiance exposure For exposure measurement of PV devices LTI will be relevant for classification. 5.4.4 Uncertainty of temporal instability Measurement uncertainty shall be stated. 5.5 AM1.5 spectral coverage (SPC) This parameter shall be computed as follows: a) Normalize reference and solar simulator spectral irradiance in the range 300 nm to 1 200 nm such that total irradiance is 1. b) Define threshold for low spectral irradiance: 10 % × E ( λ ) AM1.5G . c) Sum the AM1.5 spectral irradiance for all spectral irradiance data points fulfilling E ( λ ) SIM > 0,1 × E( λ ) AM1.5G . d) Calculate AM1.5 spectral coverage (SPC) according to formula (3). 5.6 AM1.5 spectral deviation (SPD) This parameter shall be computed as follows: a) Normalize AM1.5 and solar simulator spectral irradiance in the range 300 nm to 1 200 nm such that total irradiance is 1. b) For each wavelength calculate | 𝐸𝐸 SIM ( 𝜆𝜆 ) − 𝐸𝐸 AM1 . 5 ( 𝜆𝜆 )|. c) Calculate AM1.5 spectral deviation (SPD) according to formula (4). 6 Name plate and data sheet The following information shall be provided by the classification report on the name plate that accompanies each simulator: • manufacturer; • model; • type of solar simulator (pulsed or steady-state); • serial number; • date of manufacture or traceable from serial number. In addition the following information shall be provided by the solar simulator manufacturer on a data sheet that accompanies each simulator: Copyrighted material licensed to University of Toronto by Clarivate Analytics (US) LLC, subscriptions.techstreet.com, downloaded on 2020-09-26 08:51:03 +0000 by University of Toronto User. No further reproduction or distribution is permitted. IEC 60904-9:2020 © IEC 2020 – 23 – The irradiance level(s), at which classification measurements were performed, shall be explicitly stated. If the intended use of the solar simulator includes a change of irradiance levels, classification shall be performed and reported for each level. – Date of issue of data sheet; – Intended use of the solar simulator (electrical performance measurement or irradiance exposure); – Actual number of hours on the lamp for continuous solar simulators, or number of flashes on the bulb for pulsed solar simulators at the time of measurements; – Statement on which classification has been used (Ed. 2 if backward compatibility is required); – Classification of “Spectral match” and information on which method was used for evaluation, that of Table 1 (restricted wavelength range) or Table 2 (extended wavelength range); – Classification of “Non-uniformity of irradiance”; – Classification of “Temporal instability” related STI or LTI; – Methods of measurements used to determine classification categories; – Value of AM1.5 spectral deviation (SPD); – Value of AM1.5 spectral coverage (SPC); – Maximum data acquisition time if used for I-V measurements; – Operating environment for which the classification is valid (ambient conditions, lamp power requirements, maximum number of flashes or operations hours); – Location and nominal area of designated test area at which the classification was determined; – Nominal lamp setting and irradiance levels at which the classes were measured; – Warm up time for stabilisation of irradiance; – Table of measured spectral irradiance distribution at 4 locations with a minimum of one data point per 10 nm interval in the total wavelength range; – Table of wavelength dependent measurement uncertainty of spectral irradiance; – Table of irradiance measured over the designated test area; – Average and standard deviation of measured irradiance across the designated test area; – Measured temporal instability of irradiance (STI) and its uncertainty; – Measured temporal instability of irradiance (LTI) and its uncertainty; – Sampling rate for measurement of STI and LTI; – Irradiance profile vs. time of the pulse (for pulsed simulator); – Data sampling rate (if data acquisition system is included); – Changes that may require verification of the classification. Technical data reported according to the list above is expected to be useful for most solar simulator applications in the PV industry at present. Some applications may require characterization of solar simulator characteristics not included in this document, for example, the angularly resolved irradiance in the test plane (beam collimation). Copyrighted material licensed to University of Toronto by Clarivate Analytics (US) LLC, subscriptions.techstreet.com, downloaded on 2020-09-26 08:51:03 +0000 by University of Toronto User. No further reproduction or distribution is permitted. |