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Noise Interference

Practical overview of noise interference in power systems affecting telecom plants. Learn about electromagnetic fields, coupling mechanisms, noise conversion, and investigation techniques. Address psychological aspects and explore relevant case studies.

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Noise Interference

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  1. Noise Interference G Cameron Telecom NZ Ltd

  2. NZCCPTS Noise Interference Guide • Good pragmatic overview • Due to high variability in nature of: • noise sources within power systems (frequencies, levels and time variation) • coupling to telecommunications plant • susceptibility of telecommunications plant need to approach each problem with an open mind a formularised approach will not always work.

  3. Electromagnetic Fields around Power Lines Below several hundred kHz • Structure attached • Quasi-static • Decompose into separate • magnetic, • electric (capacitive) and • conductive coupling mechanisms. • Earth return component of current is the primary concern

  4. Weak Coupling Assumption • Ignore the affect of telecommunications plant on current distribution in the power line • Allows us to decompose problem into • Calculate current distribution on power line independently of telecommunications plant using standard tools • Calculate induced voltage at site of telecommunications plant E = C x L x I x K

  5. Coupling of Noise to Telecommunications Plant • Inductive coupling approximately linearly proportional to frequency at road width separations • Susceptibility of telecommunications plant to noise is technology and frequency dependent • For telephone services a 2000 Hz noise current is approximately 40,000 x worse than a 50 Hz current of the same magnitude • Very small noise currents in power lines (10s of milliamps) can cause significant problems

  6. Electromagnetic Compatibility • Electromagnetic compatibility issue • Responsibility of source to limit magnitude of interference • Responsibility of receiver to limit susceptibility of their system to interference.

  7. Noise Conversion Mechanisms • Telecommunications cables use transverse signals over twisted pair cable • Telecommunications plant has very high symmetry to prevent induced longitudinal noise causing audible transverse noise • Balance > 60 dB if properly maintained – reject 99.9% of induced longitudinal voltage.

  8. Noise Investigation Techniques • Survey longitudinal voltages on telecommunication cables • Measure spectrum of induced noise • Rule in/out conductive coupling mechanisms • Obtain power system distribution plans, notes of recent changes • “Measure” current magnitude and flow in power network

  9. Psychological Aspects • Take telecommunications company time to recognise that there is a widespread problem • Telecom customers are not good at complaining to Telecom! • Telecommunication customers expectations are rising

  10. Case Studies • Dismantling of 110kV lines north of Temuka – 47th Harmonic Zero Sequence resonance • Lower Waitaki – interconnection of 110 kV network to upper Waitaki stations • HVDC Link • 1965 – Toll circuits over 10 mile long between Benmore and Haywards • 1965 – ripple control interference as far away as Blenheim • 1980s – noise in Fairton when in earth return mode

  11. Case Studies • Tiwai point 23rd and 25th harmonic causing noise at Omarama and ripple control problems in Otago and Southland. • Kataia CBD broken neutral • Westport and Cape Foulwind loss of one phase in interconnecting line • Ngahere Gold Dredge • Tuamarina ripple relay signal problem

  12. Case Studies • Taupo SWER lines

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