RU99126503A - EXCITATION SCHEME OF A DISCHARGE LAMP - Google Patents

Claims (13)

1. An electronic circuit (1, 3) for controlling a gas discharge lamp (4), comprising generating means for generating a high-frequency pulse sequence that can be supplied to the lamp electrodes for igniting the lamp (4), means by which the generating means can be connected to a power source, a choke coil (L3) to limit the current consumed by the lamp (4), characterized in that this circuit contains means (3) for generating the first series (P0) of pulses and independently of the second series (P1) of pulses, and means (T0, T1, L3) for combining by adding the first and second series of pulses to obtain a high-frequency pulse sequence.  2. The electronic circuit (1, 3) according to claim 1, characterized in that the means (T0, T1, L3) for combining the first and second series of pulses includes a choke coil (L3), which combines the first and second series of pulses (P0 , P1).  3. The electronic circuit (1, 3) according to claim 1 or 2, characterized in that the circuit (1, 3) has pairs of outputs (TP10, TP20; TP11, TP21), each pair of which provides a stable supply of low output voltage which can be supplied to the heated electrodes of the lamp (4).  4. The electronic circuit (1, 3) according to any one of claims 1 to 3, characterized in that the means for combining the first and second series of pulses (P0, P1) includes an insulating transformer means (T0, T1) intended for electrical isolation of the lamp (4) from the power source.  5. An electronic circuit (1, 3) according to any one of claims 1 to 4, characterized in that the means (T0, T1, L3) intended for combining the first and second series of pulses (P0, P1) contain a first transformer (T0) and a second transformer (T1), and the first and second series of pulses (P0, P1) respectively are supplied to the primary windings of each of the transformers, and each of the secondary windings has a tap (TP30, TP31), which can be electrically connected to the lamp contacts (4 ), and each of them has a different branch (TP40, TP41), electrically connected to the throttle cable ushkoy (L3) so that the choke coil secondary winding and connects the choke coil (L3) in series between the contacts.  6. The electronic circuit (1, 3) according to claim 5, characterized in that at least one of the transformers (T0, T1) has a secondary winding with a pair of taps (TP10, TP20; TP11, TP21) which can be electrically connected to the heating elements of the lamp (4).  7. The electronic circuit (1, 3) according to claim 6, characterized in that one of the terminals (TP20, TP21) of the secondary winding, designed for heating elements, is electrically connected to one of the terminals (TP30, TP31) of the secondary winding for lamp contacts .  8. An electronic circuit (1, 3) for controlling a gas discharge lamp (4) according to any one of claims 1 to 7, characterized in that the circuit comprises means (1) for shifting the phase of the first series of pulses with respect to the second series of pulses, means ( T0, T1, L3) for combining the first and second series of pulses (P0, P1), as a result of which the width of the pulses in the pulse sequence changes.  9. The electronic circuit (1, 3) according to claim 8, characterized in that the circuit comprises means for detecting changes in the supply voltage coming from the power source, means for shifting the phase of the first pulse train in relation to the second pulse train, in response to the change supply voltage so that the output power of the lamp (4) can be kept at a constant level when the supply voltage changes.  10. An electronic circuit (1, 3) for controlling a gas discharge lamp (4) according to claim 8 or 9, characterized in that the circuit comprises means for controlling the level of light for setting the desired level of intensity of the output light of the lamp (4), means (1) for the phase shift of the first pulse train (P0) with respect to the second pulse train (P1), in response to the signal of the light level control means so that the output power of the lamp (4) can be set to the desired level by changing the pulse width.  11. The electronic circuit (1, 3) according to claim 10, characterized in that the circuit comprises a motion detection means for detecting the movement of an object located close to the circuit, and the light level control means responds to the signal of the motion detection means so that the output lamp power (4) can be set to the required level when changing the pulse width.  12. The electronic circuit (1, 3) according to any one of claims 1 to 11, characterized in that the pulse sequence contains pulses of both positive and negative polarity.  13. A lighting device having contacts for a gas discharge lamp (4) and an electronic circuit (1, 3) according to any one of claims 1-12.