BSI PD IEC TS 62607-7-2:2023
$198.66
Nanomanufacturing. Key control characteristics – Nano-enabled photovoltaics. Device evaluation method for indoor light
| Published By | Publication Date | Number of Pages |
| BSI | 2023 | 52 |
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 2 | undefined |
| 4 | CONTENTS |
| 6 | FOREWORD |
| 8 | INTRODUCTION |
| 9 | 1 Scope 2 Normative references 3 Terms and definitions |
| 11 | 4 Abbreviated terms |
| 12 | 5 Methods for measuring current-voltage characterization 5.1 General 5.2 Requirements 5.2.1 Device under test (DUT) 5.2.2 Illumination adjustment |
| 13 | 5.2.3 Measurement procedure |
| 14 | Tables Table 1 – Standard indoor illuminance |
| 15 | 5.3 Important additional information Table 2 – Result record |
| 16 | 6 Indoor reference photovoltaic cells 6.1 Requirements 6.1.1 Selecting indoor reference photovoltaic cells 6.1.2 Calibrating indoor reference photovoltaic cells |
| 17 | 6.2 Important notes Table 3 – Calibration record |
| 18 | 7 Standard indoor light – Requirements 7.1 Standard indoor illuminance 7.2 Standard indoor light 7.3 Spectral irradiance of standard indoor light Table 4 – Spectral irradiance (mW/m2/nm) of standard indoor light at 1 000 lx |
| 21 | 8 Traceability 8.1 Description – General 8.2 Calibration chain example Figures Figure 1 – Spectral irradiance of standard indoor light at 1 000 lx |
| 22 | 9 Temperature correction 9.1 Requirements 9.2 Temperature of the DUT 10 Spectral-mismatch correction 10.1 Requirements 10.1.1 Indoor reference photovoltaic-cell method Figure 2 – Calibration chain example |
| 23 | 10.1.2 Recording results 10.2 Important additional information 11 Spectral responsivity 11.1 Requirements 11.1.1 Spectral responsivity, S(λ) 11.1.2 Measurement methods 11.2 Important notes |
| 24 | 12 Illumination sources 12.1 Requirements 12.1.1 Indoor spectral coincidence 12.1.2 Illuminance non-uniformity |
| 25 | 12.1.3 Temporal stability 12.1.4 Light source classification 12.1.5 Indoor standard relative spectral responsivity Table 5 – Light source classification |
| 26 | Table 6 – Indoor standard relative spectral responsivity (%) |
| 36 | Figure 3 – Standard relative spectral responsivity |
| 37 | 12.2 Illuminance non-uniformity 13 Nonlinearity 13.1 Requirements 13.2 Important notes |
| 38 | Annex A (informative)Explanations of the provisions, descriptions, and other content in the standard main body of this document. A.1 Purpose of this document A.2 Target of this document A.3 Issues discussed during deliberation A.3.1 Adjusting light intensity with an illuminometer A.3.2 Indoor spectral coincidence |
| 39 | A.3.3 Stability of a DUT (5.2.2) A.3.4 Maximum power (Pmax) |
| 40 | A.4 Supplemental remarks on requirements A.4.1 Requirements for the DUTs (5.2.1) A.4.2 Standard indoor light (Clause 7) |
| 41 | A.4.3 Methods for adjusting illuminance (5.2.2) Figure A.1 – Configurations of illuminance adjusting methods described ina) A.4.3.2, b) A.4.3.3 and c) A.4.3.4 |
| 42 | Figure A.2 – PRISM or spectroradiometer method |
| 43 | Figure A.3 – Measurement laboratories |
| 44 | A.4.4 Quasi-reference photovoltaic cell A.4.5 Standard indoor light (7.1, 7.2) A.4.6 Spectral responsivity (11.1.2) Table A.1 – Spectral coincidence of F to reference spectrum CIE FL10 Table A.2 – Spectral coincidence of L to reference spectrum CIE LED-B4 |
| 45 | A.4.7 Illumination source and indoor spectral coincidence (12.1.1) |
| 46 | A.4.8 Illumination sources and non-uniformity of brightness (12.1.2) A.4.9 Temporal stability (12.1.3) A.4.10 Classification of illumination sources (12.1.5) Figure A.4 – Temporal fluctuation of illuminance of a fluorescent lamp |
| 47 | A.4.11 Nonlinearity (13.1) A.5 Correspondence between this document and the IEC 60904 series |
| 48 | Table A.3 – Correspondence between clauses of this document and IEC 60904 Table A.4 – New concepts in this document derived from IEC 60904 |
| 49 | Bibliography |
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