The invention relates to supply of power to a resonator by voltages greater than 200 V and frequencies higher than 1 MHz and in particular to the supply of power to resonators used in controlled ignitions.
For application to automobile plasma ignition, resonators whose resonant frequency is higher than 1 MHz are arranged at the spark plug and are typically supplied with voltages greater than 200 V and are subjected to a current greater than 10 A. This application necessitates the use of radiofrequency resonators with a high quality factor and a high voltage generator, the operating frequency of which is very close to the resonant frequency of the resonator. The more the difference between the resonant frequency of the resonator and the operating frequency of the generator is reduced, the higher the amplification factor (ratio of its output voltage to its input voltage) of the resonator. The higher the quality factor of the resonator, the more the operating frequency of the generator must be close to its resonant frequency.
Numerous parameters have an impact on the resonant frequency: manufacturing tolerances, temperature in the combustion chamber or in the cooling circuit, or aging drift in the resonator components. These parameters have an even more significant impact for the particular case of spark plug coils due to the proximity between certain components of the resonator and the combustion chamber. Guaranteeing an amplification factor of the resonator is hence a delicate matter.
The invention aims to resolve this drawback. The invention thus proposes a power-supply control device for a radiofrequency ignition of a combustion engine, comprising:
The invention also pertains to a radiofrequency ignition power supply comprising:
The invention furthermore pertains to an ignition system comprising:
Other features and advantages of the invention will emerge clearly from the description thereof below, provided by way of indication and in no way limiting, with reference to the appended drawings in which:
a illustrates an ignition system integrating a control device according to the invention; and
The invention proposes a power-supply control device for a radiofrequency ignition of a combustion engine. The control device takes account of measurement signals of operating parameters of the combustion engine and determines the frequency of the ignition control signal to be generated as a function of the stored relationships between the measurement signals and the frequency of the control signal.
By adapting the frequency of the control signal as a function of the operating parameters of the engine, this frequency will be kept very precisely at a value close to the resonant frequency of the resonator. In this way an open-loop servocontrol of frequency is produced.
Advantageously, the device 2 furthermore comprises an interface 22 for receiving measurement signals of operating parameters from the power supply, receiving for example a measurement of the voltage at the terminals of the electrodes or a measurement of the intermediate voltage applied to the circuit 6.
The device 2 comprises a memory module 26 in which the relationships between the measurement signals and the frequency of a control signal to be generated are stored. These relationships may be established as a function of preliminary tests. The memory module 26 may store the relationships in the form of a function associating predetermined measurement signals with a unique control signal frequency. It is possible, for example, to extrapolate a linear function or a polynomial function as a function of the results of preliminary tests on a resonator while varying the different parameters taken into account. The memory module may also memorize the relationships in the form of a multidimensional table having measurement signals as its input.
According to a simplified version, the module 26 stores the relationships providing a control frequency as a function of a temperature measurement in the proximity of the resonator 5 and of measurements of electrical operating parameters of the power supply. These relationships may be established as a function of preliminary tests that establish the impact of the temperature on the resonant frequency of the resonator 5.
The device 2 comprises a module 25 determining the frequency of the control signal to be generated as a function of the measurement signals received and of the relationships stored in the memory 26. The frequency of the control signal is provided by the module 25 to a module 27, applying the control signal at said frequency to an output interface 24. The module 27 is, for example, a clock generator chosen in a suitable way by a person skilled in the art.
It is possible to provide a programming interface 23 allowing instructions for changing the relationships or the parameters of the resonator stored in the memory module 26 to be received and carried out. The programming interface 23 may in particular be a wireless communications interface. In this way, it is possible to envision updating the relationships stored in the module 26. In this way, if better knowledge is acquired of the behavior of the resonator, the operation of the ignition system may be optimized after delivery. Moreover, the programming interface 23 allows the module 26 to be programmed on the basis of the values of electrical parameters (for example, the resonant frequency) of a resonator 5 measured in the factory. A barcode may be linked with the resonator 5 so as to encode the values of the electrical parameters determined, this barcode being read so as to enter these values into the module 26 when connecting the resonator to the device 2. In this way, the manufacturing tolerances of the resonators 5 will have no impact on the precision of the control frequency generated.
For application to ignition of a combustion engine, the ignition system typically comprises a series resonator 5, the frequency of which is higher than 1 MHz, means for applying a voltage greater than 200 V between the terminals of the electrodes and a control device able to generate a control signal having a frequency of the order of magnitude of the resonant frequency of the resonator.
Number | Date | Country | Kind |
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0512770 | Dec 2005 | FR | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/FR2006/051298 | 12/6/2006 | WO | 00 | 10/23/2008 |