• The protection of telecommunications lines and equipment against lightning discharges
  • TABLE OF CONTENTS
  • CHAPTER 9 – FIBRE OPTIC CABLE LIGHTNING DAMAGE ASSESSMENT
    • 1 General
    • 2 Introduction
    • 3 Direct buried cables
      • 3.1 Lightning damage mechanisms in buried cable
      • 3.2 Annual damage rate for buried cable (first approach)
      • 3.3 Annual damage rate for buried cable (second approach)
      • 3.4 Improvement due to shield wires
      • 3.5 Improvement due to route redundancy
    • 4 Aerial cables
      • 4.1 Annual lightning damage rate assessment for aerial cable
      • 4.2 Improvement due to joint use with a power line (aerial construction)
      • 4.3 Improvement due to route redundancy
    • References
  • CHAPTER 10 – OVERVOLTAGES AND OVERCURRENTS MEASURED ON TELECOMMUNICATION SUBSCRIBER LINES
    • 1 General
    • 2 Measuring equipment
    • 3 Classification of lines
    • 4 Parameters of the overvoltages and overcurrents
      • 4.1 Classification
      • 4.2 Peak value xp
      • 4.3 Front time or rise time T1
      • 4.4 Steepness of the front or rate of rise S
      • 4.5 Equivalent decay time to half-value T2
      • 4.6 Specific energy
      • 4.7 Statistical evaluation of lightning parameters
        • 4.7.1 Introduction
        • 4.7.2 Logarithmic normal distribution [5]
        • 4.7.3 One-side truncated logarithmic normal distribution
        • 4.7.4 Heterogeneous population
    • 5 Results
      • 5.1 General
      • 5.2 Rural area
      • 5.3 Urban/suburban area
    • 6 Conclusions
    • References
    • Appendix I – Measurement results in Canada
      • I.1 Introduction
      • I.2 General survey description
      • I.3 Monitoring techniques
      • I.4 Results
    • Appendix II – Measurement results in France
      • II.1 Introduction
      • II.2 Measuring equipment and experimental line characteristics
      • II.3 Analysis of induced overvoltages
      • II.4 Statistical analysis of induced overvoltages
      • II.5 Conclusions and outlook
      • References
    • Appendix III – Measurement results in Germany
      • III.1 Introduction
      • III.2 Measuring equipment
      • III.3 Application of surge voltage counters
      • III.4 Results
      • III.5 Conclusions
    • Appendix IV – Measurement results in Italy
      • IV.1 Introduction
      • IV.2 Measuring equipment, location and route characteristics
      • IV.3 Parameters of measured overvoltages and overcurrents
    • Appendix V – Measurement results in Japan
      • V.1 Introduction
      • V.2 Lightning surge voltage
      • V.3 Lightning surge current
      • References
    • Appendix VI –Measurement results in the United States of America
      • VI.1 Introduction
      • VI.2 Measuring equipment, location and route characteristics
      • VI.3 Parameters of measured overvoltages and overcurrents
      • VI.4 Conclusions
      • References