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Transcript
Introduction to Photovoltaic Technology Ridha Hamidi, Ph. D. PV Cells, Modules, and Arrays PV System Building Blocks • The basic building blocks for PV systems include cells, modules, and arrays. Boron, Silicon, Phosphorous Semiconductors • Semiconductor materials with special electrical properties can be made by adding small amounts of other elements to silicon crystals. Photovoltaic Effect • The photovoltaic effect produces free electrons that must travel through conductors in order to recombine with electron voids, or “holes.” PV Materials Efficiencies • Various PV materials and technologies produce different efficiencies. 20 Efficiency (%) 16 NREL CuInSe2 CdTe Amorphous silicon (stabilized) 12 NREL Univ. of So. Florida BP Solar EuroCIS Boeing Boeing Univ. of So. FL ARCO Photon Energy AMETEK United Solar Kodak Boeing Monosolar 8 Kodak Boeing Matsushita Boeing Univ. of Maine ECD The Best One-of-a-Kind Laboratory Cell Efficiencies for Thin Films (Standard Conditions) 4 0 1975 NREL RCA 1980 1985 1990 1995 2000 2005 02658722 PV Cell Manufacturing Video see also animation on http://www.noutilitybill.com/ I-V Curve • An I-V curve illustrates the electrical output profile of a PV cell, module, or array. Maximum Power Point • A power against voltage curve clearly shows the maximum power point. Open-Circuit Voltage (Voc) • Open-circuit voltage is easily measured with test instruments. Short-Circuit Current (Isc) • Using in-line and clamp-on ammeters are two methods of measuring shortcircuit current. Cell Efficiency • Efficiency is a measure of how effectively a PV device converts solar power to electrical power. Solar Irradiance Response • Voltage increases rapidly up to about 200 W/m2, and then is almost constant. Current increases proportionally with irradiance Temperature Response • Increasing cell temperature decreases voltage, slightly increases current, and results in a net loss of power. I-V Curve Video Junction Box • A junction box on the back of a module provides a protected location for electrical connections and diodes. Electrical Connections • MC connectors Series Connections • PV cells or modules are typically connected in series strings to build voltage. PV Devices in Series • The overall I-V characteristics of a series string are dependent on the similarity of the current outputs of the individual devices. Parallel Connections • Strings of PV cells or modules may be connected in parallel to build current. PV Devices in Parallel • The overall I-V characteristics of a system of PV devices in parallel are dependent on the similarity of the current outputs of the individual devices. 01 23 45 6 87 111019 1123 1145 1176 1289 2201 2223 2245 2267 2389 3301 3323 3354 3367 3489 4401 4432 4445 4467 4589 5501 5523 5545 5567 5689 6610 6623 6645 6667 6798 777102 7734 7756 7787 8890 8812 8834 8856 8878 9990 9912 9934 965 Amps Mismatching Modules 14.0 12.0 10.0 8.0 Sanyo HIT Power 180 Mitsubishi UD 180 MF5 6.0 Series Parallel 4.0 2.0 0.0 Volts Module Sizes and Shapes • Modules are available in several sizes and shapes, including squares, rectangles, triangles, flexible units, and shingles. Bypass Diodes • Bypass diodes allow current to flow around devices that develop an opencircuit or high-resistance condition. Bypass Diodes Video STC vs PTC • Standard Test Conditions (STC) – 1,000 W/m2 – AM1.5 solar spectral irradiance distribution – 25°C cell or module temperature • PVUSA Test Conditions (PTC) – 1,000 W/m2 – 20°C ambient temperature – 1m/s wind speed • Silicon PV power varies by about -0.5% per °C – PV module temperature is about 50°C under PTC – Module PTC power rating is about 88% of the PV module nameplate rating CEC Rating http://www.gosolarcalifornia.ca.gov/equipment/ Sharp 216 WATT ND-216u1F SANYO HIT Power 180 HIP-180BA19 Module Nameplates • Module nameplates must include performance ratings for the module and may include other information used to design a PV system. Solar Marshal Amorphous Silicon Thin Film Photovoltaic Panels Electrical Characteristics Building an Array • Modules are added in series to form strings or panels, which are then combined in parallel to form arrays.
