Electric lamp and discharge devices: systems – Periodic switch in the supply circuit – Silicon controlled rectifier ignition
Reexamination Certificate
2002-05-07
2004-11-09
Lee, Wilson (Department: 2821)
Electric lamp and discharge devices: systems
Periodic switch in the supply circuit
Silicon controlled rectifier ignition
C315S247000
Reexamination Certificate
active
06815907
ABSTRACT:
BACKGROUND
The invention relates to a method for operating a high pressure lamp, in particular for improvement of light arc stability, where an alternating current is supplied to the lamp Moreover the invention relates to a lamp current signal for provision of a high pressure lamp. The invention also relates to a circuit arrangement for providing a high pressure lamp with a lamp current. Eventually the invention also relates to the use of the method, the signal and the arrangement in several devices.
High pressure lamps, in particular High Intensity Discharge Lamps, need to be fed by appropriate currents so that the light-arc is substantially stable A method for providing a lamp with a well suited current is known from U.S. Pat. No. 5,608,294.
The method described in U.S. Pat. No. 5,608,294 aims to provide a method for operating a high pressure lamp, and a circuit arrangement for operation of a high pressure discharge lamp in such a way that flickering of the lamp during operation is substantially suppressed. To reduce flickering, it is proposed to supply an alternating lamp current to the high pressure discharge lamp, to generate a current pulse in a predetermined fraction of given half periods of the lamp current, where said current pulse has the same polarity as the lamp current and is superimposed on the lamp current only in a latter pan of the half period in which it is generated. By superimposing the current pulse on the lamp current, the temperature of the electrode is raised relatively high. The high temperature causes the discharge arc to originate from the same place on the electrode in each cathodic phase. The effect of this is a light-arc with higher stability.
The use of an extra current pulse, as described in U.S. Pat. No. 5,608,294, increases dissipation power in the circuit arrangement. Also the light output is not constant, which complicates the use of such lamps in sequential displays, which prefer a constant light stream.
Based on the above described and known method, it is an object of the invention to improve the light-arc stability. It is another object of the invention to decrease dissipation power in the circuit arrangement.
SUMMARY OF THE INVENTION
By use of a method for operating a high pressure lamp, where the absolute value of said lamp current is substantially constant, and where said alternating lamp current is pulse-width modulated, whereby the pulse-width ratio between a pulse-width of a positive pulse and a pulse-width of a negative pulse is modulated, the stability of the light-arc is improved. Also the luminous flux is virtually constant, as the lamp rating is practically constant due to the almost constant absolute value of the lamp current. Further, the dissipation power is decreased, as no extra current pulse is needed.
A high pressure lamp, such as a high pressure discharge lamp, a high intensity discharge lamp (UHP-lamp), or a high pressure gas discharge lamp (HIP-lamp), has a light-arc. According to the invention it can be ensured that the light emitted from the lamp has in general always the same luminous flux.
According to the invention, a high pressure lamp is fed by a current that has substantially a constant absolute value. The polarity of the current is alternated according to a given frequency. By that, current pulses of switching polarity are applied to the lamp. It is understood that during a switch of polarity, the absolute value of the currents cannot be constant, the current signal has an edge. Any signal form, which is applicable for the alteration of the polarity, may be applied. Possible signals are ramp signal, virtually rectangular-signals, or sawtooth signals. The signal form of the current is preferential rectangular. The pulses may also have edges with an edge steepness that can be from rectangular to ramp.
Such an alternating lamp current is then pulse-width modulated By pulse-width modulation, the width of a current pulse in either polarity can be modulated The ratio between a pulse width of a positive pulse and a pulse width of a negative pulse can thereby be adjusted When this ratio is modulated according to a given function, the stability of the light-arc can be improved.
The operation frequency according to claim
2
, by which the lamp current is alternated, is preferred Above a frequency of about 5 kHz, there might be the possibility of acoustic resonance In that case the light-arc stability would deteriorate But a higher frequency might still be applicable and thus is in the scope of the invention. In case the frequency of the alternating lamp current is decreased below a certain value, approximately 40 Hz, light-arc stability may not be achieved. This frequency range is only a preferred range and does not limit the invention to that range.
A frequency range for modulation of a pulse-width ratio, as described in claim
3
, is favoured. Above a value of about 100 Hz, which frequency is mainly dependent on the geometry of the electrodes, the effect of light-arc stabilization disappears. Very low frequencies, such as 0, 1 Hz, still allow an improvement of the light-arc stability. These very low frequencies may be applied in light-systems, where artifacts have to be avoided. As the light quantity emitted from the lamp differs from the pulse with positive polarity to the pulse with negative polarity, artifacts may be avoided by modulating. The signal in a way that the modulation frequency may not be perceived by humans. That can be reached with a very low modulation frequency. Again, this frequency range is only a preferred range and does not limit the invention to that range.
By synchronizing the pulse-width modulation frequency with a display frequency of a display device, artifacts, which appear on the display, may be avoided.
A signal according to claim
5
is favoured. Such a signal may be a sine, cosine, a sawtooth or any other signal. Also signals that are close to these signals may be applied.
It is preferred that the modulation amplitude can be reduced When the amplitude of the current pulses is reduced, the absolute value of the current applied to the lamp is reduced.
A lamp current signal for provision of a high pressure lamp, which polarity alternates, which absolute value is substantially constant, and which pulse-width A ratio between a pulse-width of a positive pulse and a pulse-width of a negative pulse is modulated, is another embodiment of the invention. This signal enables a high pressure lamp to emit a light signal with a substantially constant signal strength, as the light-arc is stable.
Also a circuit arrangement for providing a high pressure lamp with a lamp current, with pulse-forming means for provision of an alternating lamp current with a substantially constant absolute value, with modulation-means for modulating a pulse-width ratio between a pulse-width of a positive pulse and a pulse-width of a negative pulse is a further embodiment of the invention. The feature of this circuit arrangement is that the dissipation power within the circuit is lower than in known circuits which provide a high pressure lamp with a signal that enables a stable light-arc.
The use of a method, a lamp current signal, or a circuit arrangement, as described above, in a data- or video-projector with LCD- or mirror-displays, is another embodiment of the invention. The stable light-arc emits a constant light, which is well suited for the use in the mentioned projectors.
REFERENCES:
patent: 4132925 (1979-01-01), Schmutzer et al.
patent: 5134345 (1992-07-01), El-Hamamsy et al.
patent: 5365151 (1994-11-01), Spiegel et al.
patent: 5608294 (1997-03-01), Derra et al.
patent: 6097158 (2000-08-01), Manor et al.
patent: 6429605 (2002-08-01), Li
patent: 6518712 (2003-02-01), Weng
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