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Solar Cell Array Design Handbook: The Principles and Technology of Photovoltaic Energy Conversion
Seller: Ria Christie Collections, Uxbridge, United Kingdom
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Solar Cell Array Design Handbook
Published by
Springer Netherlands Apr 2014, 2014
ISBN 10: 9401179174
ISBN 13: 9789401179171
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Seller: BuchWeltWeit Ludwig Meier e.K., Bergisch Gladbach, Germany
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Taschenbuch. Condition: Neu. This item is printed on demand - it takes 3-4 days longer - Neuware -I Solar Cell Arrays.- 1 Array Systems.- Array Concepts.- 1¿1. Arrays and Batteries.- 1¿2. Arrays, Panels, Parts, and Components.- 1¿3. Array Types.- 1¿4. The Array as Part of the Power System.- 1¿5. The Array as a System.- 1¿6. Hybrid Systems 6 Historical Developments.- 1¿7. History of Terrestrial Arrays.- 1¿8. History of Space Arrays.- 1 ¿9. The Future of Solar Cell Arrays.- Array Applications.- 1¿10. Terrestrial Applications.- 1¿11. Space Applications.- 1¿12. Power from Space.- Array Systems Performance.- 1¿13. Array Ratings.- 1¿14. Terrestrial Flat-Plate Arrays.- 1¿15. Terrestrial Concentrator Arrays.- 1¿16. Space Flat-Hate Arrays.- 1¿17. Spinning Space Arrays.- 1¿18. Space Concentrator Arrays.- 1¿19. Space Array Orbital Performance.- 2 Array Analysis.- Analytical Concepts.- 2¿1. The Role of Analysis.- 2¿2. Atoms and Electrons.- 2¿3. Electric Charge.- 2¿4. Conductors.- 2¿5. Insulators.- 2¿6. Current.- 2¿7. Electric Field.- 2¿8. Potential and Voltage.- 2¿9. Electrical Circuits.- 2¿10. Sources and Generators.- 2¿11. Current Flow Convection.- 2¿12. Resistance and Resistors.- 2¿13. Ohm¿s Law.- 2¿14. Power.- 2¿15. Energy.- 2¿16. Capacitance and Capacitors.- 2¿17. Magnetism.- 2¿18. Inductance and Inductors.- 2¿19. AC and DC Current.- 2¿20. Impedance.- Circuit Analysis.- 2¿21. Circuit Modelling.- 2¿22. Circuit Simplifications.- 2¿23. Circuit Responses.- 2¿24. Circuit Equations.- 2¿25. Operating Points.- Semiconductors and Solar Cell Models.- 2¿26. Quantum Mechanics.- 2¿27. Semiconductor Materials.- 2¿28. Semiconductor Junctions.- 2¿29. Solar Cell Operation.- 2¿30. Solar Cell Equation.- 2¿31. Solar Cell DC Model.- 2¿32. Distributed Parameter Solar Cell Model.- 2¿33. Analytical Models for Computer Work.- 2¿34. Non-Analytical Computer Models.- 2¿35. Selecting the Proper Model.- 2¿36. Solar Cell AC Model.- 2¿37. Solar Cells in Parallel and Series.- 2¿38. Illuminated Arrays.- 2¿39. Partially Shadowed Cells in Parallel.- 2¿40. Partially Shadowed Cells in Series.- 2¿41. Solar Cell Strings with Shunt Diodes.- 2¿42. Shadowing Factors.- 2¿43. Nonilluminated Array Models.- 2¿44. Blocking Diode Models.- 2¿45. Reverse-Biased Solar Cells.- 2¿46. Power Dissipation in Reverse-Biased Solar Cells.- Array Performance Prediction.- 2¿47. Array Output Analysis.- 2¿48. Sequence of Shifting I¿V Curves.- 2¿49. Calculation of Angle of Incidence.- 2¿50. Calculation of Effective Solar Intensity.- 2¿51. Calculation of Cell and Array I¿V Curves.- Shadow Analysis.- 2¿52. Shadows 84 Thermal Analysis.- Thermal Analysis.- 2¿53. Heat Flow and Temperature.- 2¿54. Heat Transfer by Conduction.- 2¿55. Heat Transfer by Convection.- 2¿56. Heat Transfer by Radiation.- 2¿57. Electrical Heat Transfer Analogy.- 2¿58. Terrestrial Array Operating Temperatures.- Reliability.- 2¿59. Reliability and Failure Rates.- 2¿60. Failure Modes and Effects.- 2¿61. Reliability Models.- Orbital Analysis.- 2¿62. Spacecraft Motion in Orbit.- 2¿63. Simplified Orbit Theory.- 2¿64. Altitude in Elliptic Orbits.- 2¿65. Location in Space.- 2¿66. Illumination of the Orbit Plane.- 2¿67. The Sun Angle.- 2¿68. Solar Eclipses.- 3 Array Design.- Design Concepts.- 3¿1. The Design Process.- 3¿2. Design Phases.- 3¿3. Design Personnel.- 3¿4. Uncertainties and Risks.- 3¿5. Design Optimization.- 3¿6. Design Requirements, Criteria and Interfaces.- 3¿7. Policy Constraints.- 3¿8. Design Review.- 3¿9. Producibility and Cost.- 3¿10. Human Engineering.- Photovoltaic System Design.- 3¿11. Load Profile Development.- 3¿12. Illumination Profile Development.- 3¿13. Preliminary Array Sizing¿Area Method.- 3¿14. Preliminary Array Sizing-Cell Efficiency Method.- 3¿15. Preliminary Array Sizing-Cell Power Method.- Detailed Array Design.- 3¿16. Detailed Array Sizing.- 3¿17. Space Array Configuration Selection.- 3¿18. Number of Required Solar Cells.- 3¿19. Array Layout.- 3¿20. Array Wiring.- 3¿21. Hot Spot Design Considerations.- 3¿22. Designing for Reliability.- 3¿23. High Voltage Design.- Thermal Design.- 3¿24. Temperature Control in Space.- 3¿25. Temperature Control on Earth.- 3¿26. Decreasing Absorptance.- 3¿27. Increasing Emittance.- 3¿28. Increasing Convection.- 3¿29. Improving the Geometry.- 3¿30. Minimizing Eclipse Exit Temperatures.- Radiation Shielding Design.- 3¿31. Solar Cell Radiation Shielding.- 3¿32. Damage-Equivalent Fluence in Orbit.- 3¿33. Shielding Thickness Determination.- 3¿34. Procedure for 1-MeV Fluence Analysis.- 3¿35. Shielding Against Low Energy Protons.- 3¿36. Absorbed Dose in Cover and Adhesive.- Electromagnetic Design.- 3¿37. Electrostatic Shielding.- 3¿38. Magnetic Cleanliness.- 3¿39. Minimizing Magnetic Moments.- 3¿40. Electrostatic Charging Control.- II Array Building Blocks.- 4 Solar Cells.- Photovoltaics.- 4¿1. Solar Cell Devices.- 4¿2. Direct Energy Conversion.- 4¿3. Discovery of the Photovoltaic Effect.- 4¿4. History of Contemporary Silicon Cells.- 4¿5. History of Non-Silicon Cells.- Solar Cell Types.- 4¿6. Solar Cell Classification.- 4 ¿ 7. Classification According to Application.- 4¿8. Classification According to Materials.- 4 ¿9. Classification According to Construction.- 4¿10. Classification According to Optical Features.- 4¿11. Contemporary Silicon Solar Cell Types for Space Use.- 4¿12. Contemporary Silicon Solar Cells for Terrestrial Use.- Electrical Characteristics.- 4¿13. Solar Cell Polarity.- 4¿14. Current-Voltage Characteristics.- 4¿15. Series Resistance.- 4¿16. Shunt Resistance.- 4¿17. Energy Conversion Efficiency.- 4¿18. Curve and Fill Factors.- 4¿19. Effects of Solar Intensity.- 4¿20. Reversible Effects of Temperature.- 4¿21. Temperature Coefficients.- 4¿22. Irreversible Temperature Effects.- 4¿23. High-Intensity, High-Temperature Operation.- 4¿24. Low-Intensity, Low-Temperature Operation.- 4¿25. Reverse Characteristics.- Optical Characteristics.- 4¿26. Effects of Optical Characteristics on Cell Efficiency.- 4¿27. Spectral Response Defined.- 4¿28. Spectral Response of Solar. Seller Inventory # 9789401179171
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Solar Cell Array Design Handbook
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Solar Cell Array Design Handbook
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Condition: New. pp. 572. Seller Inventory # 26127971104
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Solar Cell Array Design Handbook
Print on DemandSeller: Majestic Books, Hounslow, United Kingdom
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Condition: New. Print on Demand pp. 572 66:B&W 7 x 10 in or 254 x 178 mm Perfect Bound on White w/Gloss Lam. Seller Inventory # 131535103
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Solar Cell Array Design Handbook | The Principles and Technology of Photovoltaic Energy Conversion
Print on DemandSeller: preigu, Osnabrück, Germany
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Taschenbuch. Condition: Neu. Solar Cell Array Design Handbook | The Principles and Technology of Photovoltaic Energy Conversion | Hans S. Rauschenbach | Taschenbuch | xix | Englisch | 2014 | Springer | EAN 9789401179171 | Verantwortliche Person für die EU: Springer Verlag GmbH, Tiergartenstr. 17, 69121 Heidelberg, juergen[dot]hartmann[at]springer[dot]com | Anbieter: preigu Print on Demand. Seller Inventory # 105329982
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Solar Cell Array Design Handbook
Published by
Springer Netherlands, Springer Netherlands Apr 2014, 2014
ISBN 10: 9401179174
ISBN 13: 9789401179171
New
Taschenbuch
Seller: buchversandmimpf2000, Emtmannsberg, BAYE, Germany
Seller rating 5 out of 5 stars
Taschenbuch. Condition: Neu. Neuware -I Solar Cell Arrays.- 1 Array Systems.- Array Concepts.- 1¿1. Arrays and Batteries.- 1¿2. Arrays, Panels, Parts, and Components.- 1¿3. Array Types.- 1¿4. The Array as Part of the Power System.- 1¿5. The Array as a System.- 1¿6. Hybrid Systems 6 Historical Developments.- 1¿7. History of Terrestrial Arrays.- 1¿8. History of Space Arrays.- 1 ¿9. The Future of Solar Cell Arrays.- Array Applications.- 1¿10. Terrestrial Applications.- 1¿11. Space Applications.- 1¿12. Power from Space.- Array Systems Performance.- 1¿13. Array Ratings.- 1¿14. Terrestrial Flat-Plate Arrays.- 1¿15. Terrestrial Concentrator Arrays.- 1¿16. Space Flat-Hate Arrays.- 1¿17. Spinning Space Arrays.- 1¿18. Space Concentrator Arrays.- 1¿19. Space Array Orbital Performance.- 2 Array Analysis.- Analytical Concepts.- 2¿1. The Role of Analysis.- 2¿2. Atoms and Electrons.- 2¿3. Electric Charge.- 2¿4. Conductors.- 2¿5. Insulators.- 2¿6. Current.- 2¿7. Electric Field.- 2¿8. Potential and Voltage.- 2¿9. Electrical Circuits.- 2¿10. Sources and Generators.- 2¿11. Current Flow Convection.- 2¿12. Resistance and Resistors.- 2¿13. Ohm¿s Law.- 2¿14. Power.- 2¿15. Energy.- 2¿16. Capacitance and Capacitors.- 2¿17. Magnetism.- 2¿18. Inductance and Inductors.- 2¿19. AC and DC Current.- 2¿20. Impedance.- Circuit Analysis.- 2¿21. Circuit Modelling.- 2¿22. Circuit Simplifications.- 2¿23. Circuit Responses.- 2¿24. Circuit Equations.- 2¿25. Operating Points.- Semiconductors and Solar Cell Models.- 2¿26. Quantum Mechanics.- 2¿27. Semiconductor Materials.- 2¿28. Semiconductor Junctions.- 2¿29. Solar Cell Operation.- 2¿30. Solar Cell Equation.- 2¿31. Solar Cell DC Model.- 2¿32. Distributed Parameter Solar Cell Model.- 2¿33. Analytical Models for Computer Work.- 2¿34. Non-Analytical Computer Models.- 2¿35. Selecting the Proper Model.- 2¿36. Solar Cell AC Model.- 2¿37. Solar Cells in Parallel and Series.- 2¿38. Illuminated Arrays.- 2¿39. Partially Shadowed Cells in Parallel.- 2¿40. Partially Shadowed Cells in Series.- 2¿41. Solar Cell Strings with Shunt Diodes.- 2¿42. Shadowing Factors.- 2¿43. Nonilluminated Array Models.- 2¿44. Blocking Diode Models.- 2¿45. Reverse-Biased Solar Cells.- 2¿46. Power Dissipation in Reverse-Biased Solar Cells.- Array Performance Prediction.- 2¿47. Array Output Analysis.- 2¿48. Sequence of Shifting I¿V Curves.- 2¿49. Calculation of Angle of Incidence.- 2¿50. Calculation of Effective Solar Intensity.- 2¿51. Calculation of Cell and Array I¿V Curves.- Shadow Analysis.- 2¿52. Shadows 84 Thermal Analysis.- Thermal Analysis.- 2¿53. Heat Flow and Temperature.- 2¿54. Heat Transfer by Conduction.- 2¿55. Heat Transfer by Convection.- 2¿56. Heat Transfer by Radiation.- 2¿57. Electrical Heat Transfer Analogy.- 2¿58. Terrestrial Array Operating Temperatures.- Reliability.- 2¿59. Reliability and Failure Rates.- 2¿60. Failure Modes and Effects.- 2¿61. Reliability Models.- Orbital Analysis.- 2¿62. Spacecraft Motion in Orbit.- 2¿63. Simplified Orbit Theory.- 2¿64. Altitude in Elliptic Orbits.- 2¿65. Location in Space.- 2¿66. Illumination of the Orbit Plane.- 2¿67. The Sun Angle.- 2¿68. Solar Eclipses.- 3 Array Design.- Design Concepts.- 3¿1. The Design Process.- 3¿2. Design Phases.- 3¿3. Design Personnel.- 3¿4. Uncertainties and Risks.- 3¿5. Design Optimization.- 3¿6. Design Requirements, Criteria and Interfaces.- 3¿7. Policy Constraints.- 3¿8. Design Review.- 3¿9. Producibility and Cost.- 3¿10. Human Engineering.- Photovoltaic System Design.- 3¿11. Load Profile Development.- 3¿12. Illumination Profile Development.- 3¿13. Preliminary Array Sizing¿Area Method.- 3¿14. Preliminary Array Sizing-Cell Efficiency Method.- 3¿15. Preliminary Array Sizing-Cell Power Method.- Detailed Array Design.- 3¿16. Detailed Array Sizing.- 3¿17. Space Array Configuration Selection.- 3¿18. Number of Required Solar Cells.- 3¿19. Array Layout.- 3¿20. Array Wiring.- 3¿21. Hot Spot Design Considerations.- 3¿22. Designing for Reliability.- 3¿23. High Voltage Design.- Thermal Design.- 3¿24. Temperature Control in Space.- 3¿25. Temperature Control on Earth.- 3¿26. Decreasing Absorptance.- 3¿27. Increasing Emittance.- 3¿28. Increasing Convection.- 3¿29. Improving the Geometry.- 3¿30. Minimizing Eclipse Exit Temperatures.- Radiation Shielding Design.- 3¿31. Solar Cell Radiation Shielding.- 3¿32. Damage-Equivalent Fluence in Orbit.- 3¿33. Shielding Thickness Determination.- 3¿34. Procedure for 1-MeV Fluence Analysis.- 3¿35. Shielding Against Low Energy Protons.- 3¿36. Absorbed Dose in Cover and Adhesive.- Electromagnetic Design.- 3¿37. Electrostatic Shielding.- 3¿38. Magnetic Cleanliness.- 3¿39. Minimizing Magnetic Moments.- 3¿40. Electrostatic Charging Control.- II Array Building Blocks.- 4 Solar Cells.- Photovoltaics.- 4¿1. Solar Cell Devices.- 4¿2. Direct Energy Conversion.- 4¿3. Discovery of the Photovoltaic Effect.- 4¿4. History of Contemporary Silicon Cells.- 4¿5. History of Non-Silicon Cells.- Solar Cell Types.- 4¿6. Solar Cell Classification.- 4 ¿ 7. Classification According to Application.- 4¿8. Classification According to Materials.- 4 ¿9. Classification According to Construction.- 4¿10. Classification According to Optical Features.- 4¿11. Contemporary Silicon Solar Cell Types for Space Use.- 4¿12. Contemporary Silicon Solar Cells for Terrestrial Use.- Electrical Characteristics.- 4¿13. Solar Cell Polarity.- 4¿14. Current-Voltage Characteristics.- 4¿15. Series Resistance.- 4¿16. Shunt Resistance.- 4¿17. Energy Conversion Efficiency.- 4¿18. Curve and Fill Factors.- 4¿19. Effects of Solar Intensity.- 4¿20. Reversible Effects of Temperature.- 4¿21. Temperature Coefficients.- 4¿22. Irreversible Temperature Effects.- 4¿23. High-Intensity, High-Temperature Operation.- 4¿24. Low-Intensity, Low-Temperature Operation.- 4¿25. Reverse Characteristics.- Optical Characteristics.- 4¿26. Effects of Optical Characteristics on Cell Efficiency.- 4¿27. Spectral Response Defined.- 4¿28. Spectral Response of Solar Cells.- Mechanical Characteristics.- 4¿29. Solar Cell Sizes. Seller Inventory # 9789401179171
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Solar Cell Array Design Handbook: The Principles and Technology of Photovoltaic Energy Conversion
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Paperback. Condition: Brand New. reprint edition. 572 pages. 10.00x7.01x1.30 inches. In Stock. Seller Inventory # x-9401179174
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Solar Cell Array Design Handbook
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Solar Cell Array Design Handbook : The Principles and Technology of Photovoltaic Energy Conversion
Published by
Springer Netherlands, Springer Netherlands, 2014
ISBN 10: 9401179174
ISBN 13: 9789401179171
New
Taschenbuch
Seller: AHA-BUCH GmbH, Einbeck, Germany
Seller rating 5 out of 5 stars
Taschenbuch. Condition: Neu. Druck auf Anfrage Neuware - Printed after ordering - I Solar Cell Arrays.- 1 Array Systems.- Array Concepts.- 1¿1. Arrays and Batteries.- 1¿2. Arrays, Panels, Parts, and Components.- 1¿3. Array Types.- 1¿4. The Array as Part of the Power System.- 1¿5. The Array as a System.- 1¿6. Hybrid Systems 6 Historical Developments.- 1¿7. History of Terrestrial Arrays.- 1¿8. History of Space Arrays.- 1 ¿9. The Future of Solar Cell Arrays.- Array Applications.- 1¿10. Terrestrial Applications.- 1¿11. Space Applications.- 1¿12. Power from Space.- Array Systems Performance.- 1¿13. Array Ratings.- 1¿14. Terrestrial Flat-Plate Arrays.- 1¿15. Terrestrial Concentrator Arrays.- 1¿16. Space Flat-Hate Arrays.- 1¿17. Spinning Space Arrays.- 1¿18. Space Concentrator Arrays.- 1¿19. Space Array Orbital Performance.- 2 Array Analysis.- Analytical Concepts.- 2¿1. The Role of Analysis.- 2¿2. Atoms and Electrons.- 2¿3. Electric Charge.- 2¿4. Conductors.- 2¿5. Insulators.- 2¿6. Current.- 2¿7. Electric Field.- 2¿8. Potential and Voltage.- 2¿9. Electrical Circuits.- 2¿10. Sources and Generators.- 2¿11. Current Flow Convection.- 2¿12. Resistance and Resistors.- 2¿13. Ohm¿s Law.- 2¿14. Power.- 2¿15. Energy.- 2¿16. Capacitance and Capacitors.- 2¿17. Magnetism.- 2¿18. Inductance and Inductors.- 2¿19. AC and DC Current.- 2¿20. Impedance.- Circuit Analysis.- 2¿21. Circuit Modelling.- 2¿22. Circuit Simplifications.- 2¿23. Circuit Responses.- 2¿24. Circuit Equations.- 2¿25. Operating Points.- Semiconductors and Solar Cell Models.- 2¿26. Quantum Mechanics.- 2¿27. Semiconductor Materials.- 2¿28. Semiconductor Junctions.- 2¿29. Solar Cell Operation.- 2¿30. Solar Cell Equation.- 2¿31. Solar Cell DC Model.- 2¿32. Distributed Parameter Solar Cell Model.- 2¿33. Analytical Models for Computer Work.- 2¿34. Non-Analytical Computer Models.- 2¿35. Selecting the Proper Model.- 2¿36. Solar Cell AC Model.- 2¿37. Solar Cells in Parallel and Series.- 2¿38. Illuminated Arrays.- 2¿39. Partially Shadowed Cells in Parallel.- 2¿40. Partially Shadowed Cells in Series.- 2¿41. Solar Cell Strings with Shunt Diodes.- 2¿42. Shadowing Factors.- 2¿43. Nonilluminated Array Models.- 2¿44. Blocking Diode Models.- 2¿45. Reverse-Biased Solar Cells.- 2¿46. Power Dissipation in Reverse-Biased Solar Cells.- Array Performance Prediction.- 2¿47. Array Output Analysis.- 2¿48. Sequence of Shifting I¿V Curves.- 2¿49. Calculation of Angle of Incidence.- 2¿50. Calculation of Effective Solar Intensity.- 2¿51. Calculation of Cell and Array I¿V Curves.- Shadow Analysis.- 2¿52. Shadows 84 Thermal Analysis.- Thermal Analysis.- 2¿53. Heat Flow and Temperature.- 2¿54. Heat Transfer by Conduction.- 2¿55. Heat Transfer by Convection.- 2¿56. Heat Transfer by Radiation.- 2¿57. Electrical Heat Transfer Analogy.- 2¿58. Terrestrial Array Operating Temperatures.- Reliability.- 2¿59. Reliability and Failure Rates.- 2¿60. Failure Modes and Effects.- 2¿61. Reliability Models.- Orbital Analysis.- 2¿62. Spacecraft Motion in Orbit.- 2¿63. Simplified Orbit Theory.- 2¿64. Altitude in Elliptic Orbits.- 2¿65. Location in Space.- 2¿66. Illumination of the Orbit Plane.- 2¿67. The Sun Angle.- 2¿68. Solar Eclipses.- 3 Array Design.- Design Concepts.- 3¿1. The Design Process.- 3¿2. Design Phases.- 3¿3. Design Personnel.- 3¿4. Uncertainties and Risks.- 3¿5. Design Optimization.- 3¿6. Design Requirements, Criteria and Interfaces.- 3¿7. Policy Constraints.- 3¿8. Design Review.- 3¿9. Producibility and Cost.- 3¿10. Human Engineering.- Photovoltaic System Design.- 3¿11. Load Profile Development.- 3¿12. Illumination Profile Development.- 3¿13. Preliminary Array Sizing¿Area Method.- 3¿14. Preliminary Array Sizing-Cell Efficiency Method.- 3¿15. Preliminary Array Sizing-Cell Power Method.- Detailed Array Design.- 3¿16. Detailed Array Sizing.- 3¿17. Space Array Configuration Selection.- 3¿18. Number of Required Solar Cells.- 3¿19. Array Layout.- 3¿20. Array Wiring.- 3¿21. Hot Spot Design Considerations.- 3¿22. Designing for Reliability.- 3¿23. High Voltage Design.- Thermal Design.- 3¿24. Temperature Control in Space.- 3¿25. Temperature Control on Earth.- 3¿26. Decreasing Absorptance.- 3¿27. Increasing Emittance.- 3¿28. Increasing Convection.- 3¿29. Improving the Geometry.- 3¿30. Minimizing Eclipse Exit Temperatures.- Radiation Shielding Design.- 3¿31. Solar Cell Radiation Shielding.- 3¿32. Damage-Equivalent Fluence in Orbit.- 3¿33. Shielding Thickness Determination.- 3¿34. Procedure for 1-MeV Fluence Analysis.- 3¿35. Shielding Against Low Energy Protons.- 3¿36. Absorbed Dose in Cover and Adhesive.- Electromagnetic Design.- 3¿37. Electrostatic Shielding.- 3¿38. Magnetic Cleanliness.- 3¿39. Minimizing Magnetic Moments.- 3¿40. Electrostatic Charging Control.- II Array Building Blocks.- 4 Solar Cells.- Photovoltaics.- 4¿1. Solar Cell Devices.- 4¿2. Direct Energy Conversion.- 4¿3. Discovery of the Photovoltaic Effect.- 4¿4. History of Contemporary Silicon Cells.- 4¿5. History of Non-Silicon Cells.- Solar Cell Types.- 4¿6. Solar Cell Classification.- 4 ¿ 7. Classification According to Application.- 4¿8. Classification According to Materials.- 4 ¿9. Classification According to Construction.- 4¿10. Classification According to Optical Features.- 4¿11. Contemporary Silicon Solar Cell Types for Space Use.- 4¿12. Contemporary Silicon Solar Cells for Terrestrial Use.- Electrical Characteristics.- 4¿13. Solar Cell Polarity.- 4¿14. Current-Voltage Characteristics.- 4¿15. Series Resistance.- 4¿16. Shunt Resistance.- 4¿17. Energy Conversion Efficiency.- 4¿18. Curve and Fill Factors.- 4¿19. Effects of Solar Intensity.- 4¿20. Reversible Effects of Temperature.- 4¿21. Temperature Coefficients.- 4¿22. Irreversible Temperature Effects.- 4¿23. High-Intensity, High-Temperature Operation.- 4¿24. Low-Intensity, Low-Temperature Operation.- 4¿25. Reverse Characteristics.- Optical Characteristics.- 4¿26. Effects of Optical Characteristics on Cell Efficiency.- 4¿27. Spectral Response Defined.- 4¿28. Spectral Response of Solar Cells.- Mechanic. Seller Inventory # 9789401179171
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