Philips Electromagnetic Lamp manual 117

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3.2 Capacitors

To do things well, some aspects have to be considered:

-First of all, capacitors for discharge lamp circuits have to fulfil the requirements as specified in IEC publications 1048 and 1049.The use of PCB (chlorinated biphenyl) is forbidden.

-It is recommended that capacitors which have some approval marks, such as VDE, KEMA, DEMKO or ENEC be used.

-Normally every lamp circuit is compensated by its own capacitance. Only in some special cases group or central compensation for more lamp circuits can be a better solution.

-In case of failure of the parallel capacitor (open or short-circuited)

the lamp behaviour is not affected. Regular control of the mains currents and/or power factor (λ or cos ϕ) is advisable.

-In case of failure of the series capacitor the lamp behaviour is immediately affected.This type of capacitor must create an open circuit in case of failure, so that the lamp will be extinguished.

-The lifetime of capacitors depends on the capacitor voltage and capacitor case temperature.Therefore capacitors with the correct voltage marking (parallel 250 V with a maximum capacitance tolerance of +/- 10% or series 450 V with a maximum capacitance tolerance of +/- 4 %) and within the specified temperature range (normally - 25 ºC to + 85 or 100 ºC) should be used.

Used within the specifications, capacitors with the VDE marking will have a lifetime equal to that of ballasts: 30 000 hours or 10 years.

-If a specified parallel capacitance value occasionally is not available, the next higher value can be used, provided that the value is not more than 20 per cent above specification.

Two general types of capacitors are currently in use: the wet and the dry type.

Wet capacitors available today contain a non-PCB oil and are equipped with internal interrupters to prevent can rupture and resultant oil leakage in the event of failure. So a clearance of at least 15 mm above the terminals has to be provided to allow for expansion of the capacitor. In case of failure, these capacitors will result in an apparent open circuit, which means the mains current drawn by the circuit approximately doubles in case of a parallel capacitor.This can cause a fuse to blow, a circuit breaker to open, but will have no further detrimental effect. Used as a series capacitor, the open circuit of the failing capacitor will extinguish the lamp.

Dry, metallised-film capacitors are relatively new to the lighting industry and are not yet available in all ratings for all applications. However, they are rapidly gaining popularity because of their compact size and extreme ease of installation and are, therefore, widely used nowadays. During its lifetime this type of capacitor gradually loses its capacitance, resulting in a gradually increasing mains current when used as a parallel capacitor. In the end the capacitor acts like an open circuit. For the series capacitor a capacitance loss of only 5% during its lifetime can be accepted, so the dry capacitor is not recommended for series applications.

Dry capacitors are more sensitive to voltage peaks than wet capacitors. In critical applications (mains supply containing peaks, frequent switching, high level of humidity or condensation) the wet capacitor is advisable.

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Contents 107 Main ballast functionsStabilisation Ignition and re-ignitionResistor ballasts Types of ballasts108 Ignition and re-ignitionInductive ballasts or chokes 109Types of ballasts Capacitor ballasts110 Ballast specification and marking111 Maximum coil temperature tw and ΔTBallast specification and marking 112 Watt losses113 Glow-switch startersMain starter function Starter typesStarter types 114Electronic starters LifetimeComponents 115Discharge tube Starter Capacitor Ballast Thermal protector Capacitors116 Components117 IEC Filter coilsCapacitors Filter coils Power factor correction119 120 Power factor correctionLamp factor = lamp wattage / lamp voltage . lamp current Sin121 Placed in series with one of the ballasts 122123 Series connection of lampsGood neutral is essential Neutral interruption and resonance124 Series connection of lampsNeutral interruption and resonance 125126 Electrical diagramsPL-TSC 4-pins ‘TL’D, PL-L Electrical diagrams127 PL-S, PL-C starter incorporatedMains voltage interruptions and short-circuiting Mains voltage interruptions and short-circuitingHarmonic distortion 128Harmonic distortion 129Ninth harmonic 130Reinforce each other Electromagnetic interference131 Electromagnetic interference 132133 Ambient and operating temperaturesAmbient and operating temperatures Minimum temperatures LampsLuminaires Maximum temperatures Lamps134 GearStarters 135Ballasts 136 Effects of mains voltage fluctuations137 Electrical wiringSee IEC 598, section Electrical wiring138 139 HumDimming Dimming140 Coil in series and by a thyristor 141For this subject, see also section Lamps Stroboscopic effect and striations142 Stroboscopic effect and striations143 144 Standard conditions Circuit breakers, fusing and earth leakage145 According to CEE-19-2ndedition L, U and K 146Main circuit breakers work on two principles Short-circuiting of the ballast 147Non-standard conditions Short-circuiting of the lampShort-circuiting of the series capacitor 148Short-circuiting of the ignitor Short-circuiting of the parallel compensating capacitor1AVisual inspection of lamps Fault findingCircuit breakers, fusing and earth leakage 149150 Electrical tests Fault finding Fault IV lamp flickers151 152 Fault findingType ballast should be used Installation aspects153 Non-standard supply voltages MaintenanceNon-standard supply voltages 154

Electromagnetic Lamp specifications

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