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Measure High Voltages with Potential Dividers and Peak Voltmeters

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High voltage measurement

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SVCE 1 EE 2353 HIGH VOLTAGE ENGINEERING D.ELANGOVAN M.E., AP / EEE SVCE Lecture# 2 UNIT 4 – Measurements of AC High Voltages
SVCE 2 Unit 4 Measurements MEASUREMENT OF HIGH DC VOLTAGES Series Resistance micro ammeter  Resistance potential divider  Generating Voltmeters  Sphere Gaps
SVCE 3 Unit 4 Measurements MEASUREMENT OF HIGH AC VOLTAGES  Series impedance voltmeter  Potential Transformers (CVT)  Electrostatic Voltmeters  Potential Dividers  Sphere gaps
SVCE 4 Unit 4 Measurements MEASUREMENT OF HIGH AC HIGH FREQUENCY & IMPULSE VOLTAGES  Potential Dividers (R & C)  Peak voltmeters  Sphere gaps
SVCE 5 Unit 4 MEASUREMENT OF HIGH DC VOLTAGES 1.Series Resistance micro ammeter Circuit diagram:
SVCE 6 Unit 4 MEASUREMENT OF HIGH DC VOLTAGES 1.Series Resistance micro ammeter Construction: A large value of resistance (few hundreds of mega ohms) is connected in series with uA Protective device (Zenor diode, neon glow tube)connected across the uA
SVCE 7 Unit 4 MEASUREMENT OF HIGH DC VOLTAGES 1.Series Resistance micro ammeter operation R should be high High DC voltage is applied Voltage drop across the resistance The current flowing thro’ R is measured in uA
SVCE 8 Unit 4 MEASUREMENT OF HIGH DC VOLTAGES 1.Series Resistance micro ammeter Note: Voltage V=IR Drop in Ammeter is negligible R should be chosen such that 1 to 10 uA is allowed for full scale deflection 500 kv can be measured Accuracy : 0.2%
SVCE 9 Unit 4 MEASUREMENT OF HIGH DC VOLTAGES 1.Series Resistance micro ammeter Need for protective device If R fails, heavy current will flow thro’ uA To divert protective device is used
SVCE 10 Unit 4 MEASUREMENT OF HIGH DC VOLTAGES 1.Series Resistance micro ammeter Drawbacks More power dissipation Temperature effects
SVCE 11 Unit 4 MEASUREMENT OF HIGH DC VOLTAGES 2.Resistance potential divider Need To avoid high loading of R Another resistor is added
SVCE 12 Unit 4 MEASUREMENT OF HIGH DC VOLTAGES 2.Resistance potential divider Circuit diagram
SVCE 13 Unit 4 MEASUREMENT OF HIGH DC VOLTAGES 2.Resistance potential divider Construction R1 R2 connected in series Voltage is measured across R2
SVCE 14 Unit 4 MEASUREMENT OF HIGH DC VOLTAGES 2.Resistance potential divider Operation DC voltages are measured using resistance voltage divider R2 <<< R1 High DC voltage applied. Drop across R1 Measure the voltage directly across R2
SVCE 15 Unit 4 MEASUREMENT OF HIGH DC VOLTAGES 2.Resistance potential divider Note Power Dissipation in resistor R1 Need for cooling Series connection of resistors
SVCE 16 Unit 4 MEASUREMENT OF HIGH DC VOLTAGES 3.Generating Voltmeter Principle Variable electrostatic generator which generates a current proportional to the applied external voltage
SVCE 17 Unit 4 MEASUREMENT OF HIGH DC VOLTAGES 3.Generating Voltmeter Time variant capacitance system can be developed between the high voltage electrode and earthed electrode, then current flowing to earth electrode will be a measure of the voltage
SVCE 18 Unit 4 MEASUREMENT OF HIGH DC VOLTAGES 3.Generating Voltmeter Connect High voltage source to disc electrode H L1,L2,L3 are earthed electrode The L1 has vanes and its rotated at constant speed The rotor vanes of L1 periodically cover and uncover the static sensing electrode L3 Capacitance between H & L3 changes periodically
SVCE 19 Unit 4 MEASUREMENT OF HIGH DC VOLTAGES 3.Generating Voltmeter The shape and No of vanes of L1,L2 are designed that they produce sinusoidal variation in the capacitance The generated ac current is rectified and read by a moving coil instrument
SVCE 20 Unit 4 Measurements MEASUREMENT OF HIGH AC VOLTAGES  Series impedance voltmeter  Potential Dividers Electrostatic Voltmeters  Potential Transformers (CVT) Sphere gaps
SVCE 21 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES Potential Dividers 1.R Dividers  Power loss  Temperature Effects 2.Series impedance 3.C dividers
SVCE 22 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES C dividers Series capacitance Dividers Apply the voltage Drop Across C Charging Current s measured using Micro ammeter
SVCE 23 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES C dividers capacitance potential Dividers
SVCE 24 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES C dividers capacitance potential Dividers Need to measure 1.Withstand-RMS voltage 2.Breakdown-Peak voltage RMS = Peak/√2 for only sine wave
SVCE 25 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES Peak value measurement 1.Chubb-Frotscue method ( Series capacitor peak voltmeter) 2.Peak voltmeter with potential voltmeter(Davis , Bowdler ,stand ring circuit) 3.Digital peak voltmeter 4.Sphere gap
SVCE 26 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES RMS value measurement 1.Peak voltmeter with potential voltmeter(Davies , Bowdler ,stand ring circuit) 2.Electrostatic voltmeter
SVCE 27 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES Peak value measurement 1.Series capacitor peak voltmeter: Principle Measure of charging current Ic=VὡC Construction Stand. Capacitor Diode & Meter
SVCE 28 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES 1.Series capacitor peak voltmeter: Operation Apply voltage Charging current is rectified by D1 and measured Other half cycle no conduction
SVCE 29 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES Peak value measurement 1.Series capacitor peak voltmeter: Current leads the voltage
SVCE 30 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES Peak value measurement 1.Series capacitor peak voltmeter: Drawbacks Voltage wave shape is not pure Sinusoidal. Contains oscillations Current may not be uniform Calibration is wrong
SVCE 31 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES Peak voltmeter with potential voltmeter(Davis , Bowdler ,stand ring circuit)
SVCE 32 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES Peak voltmeter with potential voltmeter(Davis , Bowdler ,stand ring circuit) The voltage to be measured is applied across C1&C2 divider. The voltage appears on C2 is rectified into DC and charge the Cs. Meter read the peak value of C2 Multiplying Divider ratio we can get the voltage to be measured
SVCE 33 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES Peak voltmeter with potential voltmeter(Davis , Bowdler ,stand ring circuit) Discharge Error Rest Charge Error
SVCE 34 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES RMS value measurement 1.Peak voltmeter with potential voltmeter(Davis , Bowdler ,stand ring circuit)
SVCE 35 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES Electrostatic Voltmeter Principle Force between the parallel plate electrodes is given by F=1/2 €V2 A/D2
SVCE 36 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES RMS value measurement Electrostatic Voltmeter
SVCE 37 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES Electrostatic Voltmeter Construction HV Electrode insulated from earth LV electrode – central point is movable Light beam Scale
SVCE 38 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES Electrostatic Voltmeter Operation High voltage is applied Due to electrostatic forces deflection of rotating Element Light focused on the mirror Gets reflected & measured
SVCE 39 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES Electrostatic Voltmeter Drawback For a Constant distance d, the sensitivity is small Advantage No source loading Continuous Reading also possible

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Measure High Voltages with Potential Dividers and Peak Voltmeters

  • 1. SVCE 1 EE 2353 HIGH VOLTAGE ENGINEERING D.ELANGOVAN M.E., AP / EEE SVCE Lecture# 2 UNIT 4 – Measurements of AC High Voltages
  • 2. SVCE 2 Unit 4 Measurements MEASUREMENT OF HIGH DC VOLTAGES Series Resistance micro ammeter  Resistance potential divider  Generating Voltmeters  Sphere Gaps
  • 3. SVCE 3 Unit 4 Measurements MEASUREMENT OF HIGH AC VOLTAGES  Series impedance voltmeter  Potential Transformers (CVT)  Electrostatic Voltmeters  Potential Dividers  Sphere gaps
  • 4. SVCE 4 Unit 4 Measurements MEASUREMENT OF HIGH AC HIGH FREQUENCY & IMPULSE VOLTAGES  Potential Dividers (R & C)  Peak voltmeters  Sphere gaps
  • 5. SVCE 5 Unit 4 MEASUREMENT OF HIGH DC VOLTAGES 1.Series Resistance micro ammeter Circuit diagram:
  • 6. SVCE 6 Unit 4 MEASUREMENT OF HIGH DC VOLTAGES 1.Series Resistance micro ammeter Construction: A large value of resistance (few hundreds of mega ohms) is connected in series with uA Protective device (Zenor diode, neon glow tube)connected across the uA
  • 7. SVCE 7 Unit 4 MEASUREMENT OF HIGH DC VOLTAGES 1.Series Resistance micro ammeter operation R should be high High DC voltage is applied Voltage drop across the resistance The current flowing thro’ R is measured in uA
  • 8. SVCE 8 Unit 4 MEASUREMENT OF HIGH DC VOLTAGES 1.Series Resistance micro ammeter Note: Voltage V=IR Drop in Ammeter is negligible R should be chosen such that 1 to 10 uA is allowed for full scale deflection 500 kv can be measured Accuracy : 0.2%
  • 9. SVCE 9 Unit 4 MEASUREMENT OF HIGH DC VOLTAGES 1.Series Resistance micro ammeter Need for protective device If R fails, heavy current will flow thro’ uA To divert protective device is used
  • 10. SVCE 10 Unit 4 MEASUREMENT OF HIGH DC VOLTAGES 1.Series Resistance micro ammeter Drawbacks More power dissipation Temperature effects
  • 11. SVCE 11 Unit 4 MEASUREMENT OF HIGH DC VOLTAGES 2.Resistance potential divider Need To avoid high loading of R Another resistor is added
  • 12. SVCE 12 Unit 4 MEASUREMENT OF HIGH DC VOLTAGES 2.Resistance potential divider Circuit diagram
  • 13. SVCE 13 Unit 4 MEASUREMENT OF HIGH DC VOLTAGES 2.Resistance potential divider Construction R1 R2 connected in series Voltage is measured across R2
  • 14. SVCE 14 Unit 4 MEASUREMENT OF HIGH DC VOLTAGES 2.Resistance potential divider Operation DC voltages are measured using resistance voltage divider R2 <<< R1 High DC voltage applied. Drop across R1 Measure the voltage directly across R2
  • 15. SVCE 15 Unit 4 MEASUREMENT OF HIGH DC VOLTAGES 2.Resistance potential divider Note Power Dissipation in resistor R1 Need for cooling Series connection of resistors
  • 16. SVCE 16 Unit 4 MEASUREMENT OF HIGH DC VOLTAGES 3.Generating Voltmeter Principle Variable electrostatic generator which generates a current proportional to the applied external voltage
  • 17. SVCE 17 Unit 4 MEASUREMENT OF HIGH DC VOLTAGES 3.Generating Voltmeter Time variant capacitance system can be developed between the high voltage electrode and earthed electrode, then current flowing to earth electrode will be a measure of the voltage
  • 18. SVCE 18 Unit 4 MEASUREMENT OF HIGH DC VOLTAGES 3.Generating Voltmeter Connect High voltage source to disc electrode H L1,L2,L3 are earthed electrode The L1 has vanes and its rotated at constant speed The rotor vanes of L1 periodically cover and uncover the static sensing electrode L3 Capacitance between H & L3 changes periodically
  • 19. SVCE 19 Unit 4 MEASUREMENT OF HIGH DC VOLTAGES 3.Generating Voltmeter The shape and No of vanes of L1,L2 are designed that they produce sinusoidal variation in the capacitance The generated ac current is rectified and read by a moving coil instrument
  • 20. SVCE 20 Unit 4 Measurements MEASUREMENT OF HIGH AC VOLTAGES  Series impedance voltmeter  Potential Dividers Electrostatic Voltmeters  Potential Transformers (CVT) Sphere gaps
  • 21. SVCE 21 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES Potential Dividers 1.R Dividers  Power loss  Temperature Effects 2.Series impedance 3.C dividers
  • 22. SVCE 22 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES C dividers Series capacitance Dividers Apply the voltage Drop Across C Charging Current s measured using Micro ammeter
  • 23. SVCE 23 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES C dividers capacitance potential Dividers
  • 24. SVCE 24 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES C dividers capacitance potential Dividers Need to measure 1.Withstand-RMS voltage 2.Breakdown-Peak voltage RMS = Peak/√2 for only sine wave
  • 25. SVCE 25 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES Peak value measurement 1.Chubb-Frotscue method ( Series capacitor peak voltmeter) 2.Peak voltmeter with potential voltmeter(Davis , Bowdler ,stand ring circuit) 3.Digital peak voltmeter 4.Sphere gap
  • 26. SVCE 26 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES RMS value measurement 1.Peak voltmeter with potential voltmeter(Davies , Bowdler ,stand ring circuit) 2.Electrostatic voltmeter
  • 27. SVCE 27 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES Peak value measurement 1.Series capacitor peak voltmeter: Principle Measure of charging current Ic=VὡC Construction Stand. Capacitor Diode & Meter
  • 28. SVCE 28 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES 1.Series capacitor peak voltmeter: Operation Apply voltage Charging current is rectified by D1 and measured Other half cycle no conduction
  • 29. SVCE 29 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES Peak value measurement 1.Series capacitor peak voltmeter: Current leads the voltage
  • 30. SVCE 30 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES Peak value measurement 1.Series capacitor peak voltmeter: Drawbacks Voltage wave shape is not pure Sinusoidal. Contains oscillations Current may not be uniform Calibration is wrong
  • 31. SVCE 31 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES Peak voltmeter with potential voltmeter(Davis , Bowdler ,stand ring circuit)
  • 32. SVCE 32 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES Peak voltmeter with potential voltmeter(Davis , Bowdler ,stand ring circuit) The voltage to be measured is applied across C1&C2 divider. The voltage appears on C2 is rectified into DC and charge the Cs. Meter read the peak value of C2 Multiplying Divider ratio we can get the voltage to be measured
  • 33. SVCE 33 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES Peak voltmeter with potential voltmeter(Davis , Bowdler ,stand ring circuit) Discharge Error Rest Charge Error
  • 34. SVCE 34 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES RMS value measurement 1.Peak voltmeter with potential voltmeter(Davis , Bowdler ,stand ring circuit)
  • 35. SVCE 35 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES Electrostatic Voltmeter Principle Force between the parallel plate electrodes is given by F=1/2 €V2 A/D2
  • 36. SVCE 36 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES RMS value measurement Electrostatic Voltmeter
  • 37. SVCE 37 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES Electrostatic Voltmeter Construction HV Electrode insulated from earth LV electrode – central point is movable Light beam Scale
  • 38. SVCE 38 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES Electrostatic Voltmeter Operation High voltage is applied Due to electrostatic forces deflection of rotating Element Light focused on the mirror Gets reflected & measured
  • 39. SVCE 39 Unit 4 MEASUREMENT OF HIGH AC VOLTAGES Electrostatic Voltmeter Drawback For a Constant distance d, the sensitivity is small Advantage No source loading Continuous Reading also possible