IEC 61215

2009-01-22 Design qualification and type approval of PV modules acc. to IEC 61215:2005 / IEC 61646:2008 TÜV Rheinland Immissionsschutz und Energiesysteme GmbH Renewable Energies January 2009 2 / 5 Design qualification and type approval of PV-modules in accordance with IEC 61215 / IEC 61646 Introduction, Overview The product certification of crystalline PV modules for open-air climates is based on international standards from the series IEC 68 “Environmental Test Procedures”. Considerable preliminary work on the definition of special test procedures for PV modules was rendered by the Research Centre of the European Commission in Ispra (Italy). The test specifications no. 503, “Terrestrial Photovoltaic (PV) Modules with Crystalline Solar Cells – Design qualification and Type Approval” developed in Ispra, were adopted in 1993 as the standard IEC 1215 of the International Electro technical Commission (now IEC 61215) and in 1995 ratified as the European standard EN 61215. In April 2005 a 2 nd edition to IEC 61215 was published, which contains some changes in testing conditions and pass criteria. IEC 61215, comprises the examination of all parameters which are responsible for the ageing of PV modules and describes the various qualification tests on the basis of the artificial load of the materials. In particular one differs between radiation testing, thermal testing and mechanical testing. In 1996 a comparable standard was developed for photovoltaic thin-film modules. In 2008 a second edition to this standard, namely IEC 61646 : ‘Thin-film terrestrial photovoltaic (PV) modules – Design qualification and type approval’, was released, which addresses new developments in the thin-film technologies and shall reduce testing efforts. The standard is in many aspects identical to IEC 61215. The main difference between the two standards lays in the additional test procedures to adapt to the special properties of thin-film technologies. These additional tests take the degradation behaviour of thin-film modules due to irradiance exposure into account. Both standards list UV preconditioning of test samples. As a further option a UV exposure test was issued in 1998 and can be utilized alternatively. IEC 61345:1998 ‘UV test for photovoltaic (PV) modules’ stipulates higher minimum UVAand UVBdoses that the modules should be exposed to. 3 / 5 Description of test procedure The following diagram shows the test sequences of both IEC 61215 and IEC 61646. 4 / 5 Overview of IEC 61215 / IEC 61646 tests Code Qualification Test Test Conditions 10.1 Visual Inspection according defined inspection list 10.2 Maximum Power Determination measurement according to IEC 60904 10.3 Insulation Test 1000 VDC + twice the open circuit voltage of the system at STC for 1 min, isolation resistance * module area > 40 MΩ⋅m 2 at 500 VDC 10.4 Measurement of Temperature Coefficients Determination of the temperature coefficients of short circuit current, open circuit voltage and maximum power in a 30°C interval 10.5 Measurement of NOCT total solar irradiance = 800 W/m² wind speed = 1 m/s 10.6 Performance at STC and NOCT cell temperature = NOCT / 25°C irradiance = 800 W/m² / 1000 E/m² measurement according to IEC 60904 10.7 Performance at low Irradiance cell temperature = 25°C irradiance = 200 W/m² measurement according to IEC 60904 10.8 Outdoor Exposure Test 60 kWh/m² solar irradiation 10.9 Hot-Spot Endurance Test 5 hour exposure to > 700 W/m² irradiance in worst-case hot-spot condition 10.10 UV-preconditioning test 15 kWh/m² UV-radiation (280 - 385 nm) with 5 kWh/m² UV-radiation (280 - 320 nm) at 60°C module temperature 10.10* UV-Exposure according IEC 61345 Min.15 kWh/m² UV-radiation (280 - 400 nm) with 7.5 kWh/m² UV-radiation (280 - 320 nm) at 60°C module temperature 10.11 Thermal Cycling 50 and 200 cycles -40°C to +85°C 10.12 Humidity Freeze Test 10 cycles -40°C to +85°C, 85% RH 10.13 Damp Heat 1000 h at +85°C, 85% RH 10.14 Robustness of Terminations As in IEC 60068-2-21 10.15 Wet Leakage Test Evaluation of insulation of the module under wet conditions 10.16 Mechanical Load Test Three cycles of 2400 Pauniform load, applied for 1 h to front and back surfaces in turn 10.17 Hail Test 25 mm diameter ice ball at 23 m/s, directed at 11 impact locations 10.18 Bypass diode thermal test Asses adequacy of thermal design of by-pass diodes at a current of 1.25 x Isc running through the diodes at module temperature of 75°C 10.19 ** Light soaking Light exposure of cycles of at least 43 kWh/m² and module temperature of 50°C ± 10 °C, until Pmax is stable within 2 % * Tests can alternatively be used ** Tests only relevant for IEC 61646 qualification 5 / 5 Pass criteria A module design shall be judged to have passed the qualification tests, and therefore to be IEC type approved, if each sample meets the following criteria: • The degradation of the maximum power output at standard test conditions (STC) does not exceed 5% after each test nor 8 % after each test sequence; • The requirements of tests 10.3 (and 10.20) are met; • No major visible damage (broken, cracked, torn, bent or misaligned external surfaces; cracks in a solar cell which could remove a portion larger than 10% of its area; bubbles or delaminations; loss of mechanical integrity • No sample has exhibited any open circuit or ground fault during the tests; • For IEC 61646 only: the measured maximum output power after final light-soaking shall not be less than 90% of the minimum value specified by the manufacturer Summary The test certificate corresponding to IEC 61215 / IEC 61646 has gained acceptance in the past few years as the quality symbol for PV modules. Nowadays it is required for most national and international funding programs. An IEC 61215 / IEC 61646 test certificate always refers to the module construction type which has been subjected to the tests. Transferral is only permissible to modules of the same construction type which fulfil the following criteria: • all materials and module components used are identical • in the cell connection the same number of less cells are bridged by a bypass-diode. • the module size and the rated output power do not exceed +10 % of the module type tested. All PV modules which fulfil these requirements are combined into one PV module type family. On the basis of the IEC 61215 / IEC 61646 qualification of a PV-module type family, the certificate can be extended to a new module design type through the repetition of certain qualification tests.