CN201374857Y - Electronic ballast applying piezoelectric transformer - Google Patents

Abstract

The utility model provides an electronic ballast applying a piezoelectric transformer, comprising an input rectification filter circuit, a half bridge driving circuit, a half bridge switching circuit, a sampling feedback circuit, an input conversion circuit of the piezoelectric transformer, and the piezoelectric transformer, wherein, the sampling feedback circuit is used for obtaining a sampling voltage signal from the half bridge switching circuit to control the oscillating frequency of the half bridge driving circuit so as to provide constant power control for outputting a lamp load, and the input conversion circuit of the piezoelectric transformer is used for converting a sine wave or quasi-sine-wave signal required by the piezoelectric transformer; furthermore, the sampling feedback circuit comprises a first resistor or mutual inductor and a first switching tube, the first resistor or mutual inductor is used for obtaining the sampling voltage signal which is used for controlling the conducting on-off of the first switching tube so as to control the oscillating frequency of the half bridge driving circuit. The electronic ballast applying the piezoelectric transformer has simple topological structure, provision of constant power control for outputting lamp loads by controlling the oscillating frequency of the half bridge driving circuit, provision of the standard sine wave voltage for the lamp load and prolonging of the service life of the lamp load.

Description

The electric ballast of applying piezoelectric transformer

Technical field

The utility model relates to the ballast field, relates in particular to a kind of electric ballast of applying piezoelectric transformer.

Background technology

The development of ballast is along with the development of lamp is progressive constantly.Ballast is divided into electric ballast and inductance type ballast.The ballast majority that uses at present is inductance type ballast, the structure of inductance type ballast is fairly simple, only needs the coil of certain number of turn to be inserted iron core and just can use with iron-clad is packaged, and its shortcoming is that volume and weight is big, efficient is low, substantially about 60%, power factor is low, and lamp voltage waveform is poor, cause the lamp load life-span low, also have problems such as noise and stroboscopic, this class ballast product does not meet modern society's requirements of green environmental protection, belongs to the type that will be eliminated.Electric ballast has a clear superiority in to improving illuminator efficiency and quality, is developing tendency in future.Electric ballast is that power frequency (50Hz/60Hz) alternating current is transformed to the alternating current of upper frequency, and can make the variator of normal startup of one or several gaseous discharge lamp and steady operation.Present most electric ballast is the electromagnetic conversion mode, and topological structure is ripe.

Piezoelectric transformer is to utilize the piezoelectric effect of the piezoelectrics after polarizing to realize voltage output as a kind of novel transformer.Importation at piezoelectric transformer drives with a sine voltage signal, make the importation produce vibration by inverse piezoelectric effect, vibration wave is coupled to output by the mechanical structure of input and output part, output produces electric charge by direct piezoelectric effect again, the quadratic transformation of the electromechanical energy of the electric energy-mechanical energy-electric energy of realization piezoelectrics obtains maximum output voltage under the resonance frequency of piezoelectric transformer.Compare with traditional electromagnetic transformers, the piezoelectric transformer volume is little, and is in light weight, noiseless, and no electromagnetic interference, step-up ratio is big, the conversion efficiency height, good output waveform need not magnetic core and copper cash, can save nonferrous materials; Piezoelectric transformer self can be with the complete filtering of the interference of power supply input stage as a good filter simultaneously, and the sine wave of a standard of output uses for back level load.

The piezoelectricity ballast of applying piezoelectric transformer is as a kind of novel electronic ballast, aspect the life-span of topological structure, prolongation lamp, compare the electric ballast of electromagnetic conversion mode, stronger advantage is arranged, for the lighting demand of environmental protection provides solution preferably.

The utility model content

The utility model provides a kind of electric ballast of applying piezoelectric transformer, the output of piezoelectric transformer directly drives lamp load, can finish igniting and two kinds of functions of normal power supply, simplify circuit of electronic ballast, and control for the output lamp load provides permanent power.

In order to solve the problems of the technologies described above, the utility model provides a kind of electric ballast of applying piezoelectric transformer, comprising:

Be used to import the input rectifying filter circuit of the rectification and the filtering of power supply;

Half-bridge drive circuit is connected with described input rectifying filter circuit;

Half-bridge switch circuit by described half-bridge drive circuit drives is connected with described half-bridge drive circuit

Be used for obtaining the sampling feedback circuit that the sampling voltage signal is controlled the frequency of oscillation of described half-bridge drive circuit, be connected with the half-bridge switch circuit with described half-bridge drive circuit from described half-bridge switch circuit;

Be used for the conversion of signals of described half-bridge switch circuit output is become the sine wave of piezoelectric transformer needs or the piezoelectric transformer input change-over circuit of quasi-sine-wave signal, be connected with described half-bridge switch circuit;

Piezoelectric transformer is connected with described piezoelectric transformer input change-over circuit.

In an embodiment of the present utility model, described sampling feedback circuit comprises:

Be used for obtaining first resistance of sampling voltage signal, be connected with described half-bridge switch circuit from described half-bridge switch circuit;

Thereby control first switching tube that described half-bridge drive circuit frequency of oscillation is controlled in conducting or disconnection by the described sampling voltage signal that described first resistance obtains, be connected with half-bridge drive circuit with described first resistance.

Further, described first switching tube is a triode.

In another embodiment of the present utility model, described sampling feedback circuit comprises:

Be used for obtaining from described half-bridge switch circuit the instrument transformer of sampling voltage signal, the main coil of described instrument transformer is connected with described half-bridge switch circuit;

Diode is connected with the secondary coil of described instrument transformer;

Thereby control first switching tube that described half-bridge drive circuit frequency of oscillation is controlled in conducting or disconnection by the described sampling voltage signal that described instrument transformer obtains, be connected with half-bridge drive circuit with described diode.

Further, described first switching tube is a triode.

The utility model provides the electric ballast of an applying piezoelectric transformer, because the characteristic of piezoelectric transformer itself, under the output open circuit state, voltage can raise rapidly, so just can finish igniting to lamp load, under normal load condition, can recover the voltage of the normal no-load voltage ratio of piezoelectric transformer again, realize the required condition of work of illuminating lamp operate as normal.Electric ballast overall efficiency of the present utility model plays good effect to energy savings about 90%; Topological structure of the present utility model is simple, has reduced the peripheral components of piezoelectric transformer to large extent; The utility model obtains the frequency of oscillation that the sampling voltage signal is controlled half-bridge drive circuit by sampling feedback circuit from the half-bridge switch circuit, thereby controls for the output lamp load provides permanent power; In addition, the utility model has prolonged the life-span of lamp load for lamp load provides the sine voltage of standard.

Description of drawings

Fig. 1 is the theory diagram of the electric ballast of applying piezoelectric transformer of the present utility model;

Fig. 2 is the circuit diagram of electric ballast of the applying piezoelectric transformer of the utility model embodiment 1;

Fig. 3 is the circuit diagram of electric ballast of the applying piezoelectric transformer of the utility model embodiment 2;

Fig. 4 is the circuit diagram of electric ballast of the applying piezoelectric transformer of the utility model embodiment 3;

Fig. 5 is the circuit diagram of electric ballast of the applying piezoelectric transformer of the utility model embodiment 4;

Embodiment

Main thought of the present utility model is to replace traditional electromagnetic conversion formula transformer application in electric ballast with piezoelectric transformer, Fig. 1 is the theory diagram of the electric ballast of applying piezoelectric transformer of the present utility model, as shown in Figure 1, in order to guarantee the effective conversion of piezoelectric transformer, between half-bridge switch circuit and piezoelectric transformer, connect piezoelectric transformer input change-over circuit, be used for the output signal of half-bridge switch circuit is converted to the sine wave or the quasi-sine-wave signal of piezoelectric transformer needs, simultaneously, the utility model also comprises sampling feedback circuit, the electric current that is reflected on the half-bridge loop is changed the change in voltage that is converted to correspondence by sampling feedback circuit, and utilize this change in voltage to control the frequency of oscillation of half-bridge drive circuit, thereby realize the permanent power control of output lamp load.

Below in conjunction with the drawings and the specific embodiments technical solutions of the utility model are described in further detail.

Fig. 2 is the circuit diagram of electric ballast of the applying piezoelectric transformer of the utility model embodiment 1, sampling feedback circuit is connected with the half-bridge switch circuit with half-bridge drive circuit, is used for obtaining the frequency of oscillation that sampled signal is controlled half-bridge drive circuit from the half-bridge switch circuit.As shown in Figure 2, sampling feedback circuit comprises: first resistance 41 and first switching tube.First resistance 41 is connected between the second switch pipe 22 and ground of half-bridge switch circuit; First switching tube adopts triode 40, and the base stage of triode 40 is connected second switch pipe 22 with first resistance 41 tie point connects, and the emitter and collector of triode 40 is in parallel with the 5th resistance 12 of decision half-bridge drive circuit frequency of oscillation.Half-bridge drive circuit comprises half bridge driver integrated circuit chip I R2153 10, IR2153 is VMOS (V-type groove metal oxide semiconductor field effect tube) and IGBT (igbt) gate drivers, the front end oscillator that it is similar to 555 time-base circuits with high voltage half-bridge gate drive circuit and one is integrated on one 8 pin chip, is stronger, the wieldy power drive IC chip of a function.The frequency of oscillation of half-bridge drive circuit is by the 4th resistance 11 between second pin two that is connected half bridge driver integrated circuit chip I R2153 10 and the three-prong 3 and the 5th resistance 12 and be connected the three-prong 3 of half bridge driver integrated circuit chip I R2153 10 and the 3rd electric capacity 13 decisions between the 4th pin 4.The electric current that flows through on the half-bridge loop changes, be reflected on first resistance 41, become corresponding change in voltage, this change in voltage is added in the base stage of triode 40, by the base stage of change triode 40 and the voltage between the emitter, control the conducting of triode 40 and end, thereby realize that the half-bridge switch circuital current changes the break-make that transfers triode 40 to and changes.When the output current of electric ballast increases, the electric current that is reflected on the half-bridge loop also can increase synchronously, voltage on first resistance 41 increases, 40 conductings of control triode, because the emitter and collector of triode 40 is in parallel with second pin two and the 5th resistance 12 between the three-prong 3 of half bridge driver integrated circuit chip I R2153 10, triode 40 conductings cause 12 liang of terminal shortcircuits of the 5th resistance, so the frequency of oscillation of half-bridge drive circuit is:

F=1/[1.38 (R11+75) * C13], wherein, R11 represents the 4th resistance 11, C13 represents the 3rd electric capacity 13.

When the output current of electric ballast reduced, the electric current that is reflected on the half-bridge loop also can reduce synchronously, and the voltage on first resistance 41 reduces, and control triode 40 ends, so the frequency of oscillation of half-bridge drive circuit is:

F=1/[1.38 (R11+R12+75) * C13], wherein, R11 represents the 4th resistance 11, and R12 represents the 5th resistance 12, and C13 represents the 3rd electric capacity 13.

As mentioned above, the break-make of controlling triode 40 by the sampling voltage on first resistance 41 is controlled the frequency of oscillation of half-bridge drive circuit, reaches control to the permanent power of output lamp load by the adjusting to the drive circuit frequency of oscillation.

Fig. 3 is the circuit diagram of electric ballast of the applying piezoelectric transformer of the utility model embodiment 2, and as shown in Figure 3, sampling feedback circuit comprises: instrument transformer 41 ', diode 42 ' and first switching tube.Between the second switch pipe 22 of half-bridge switch circuit and ground, connect instrument transformer 41 ' main coil, instrument transformer 41 ' secondary coil connect diode 42 ' positive pole; First switching tube adopts triode 40, the base stage of triode 40 and diode 42 ' negative pole be connected, the emitter and collector of triode 40 is in parallel with the 5th resistance 12 that determines the half-bridge drive circuit frequency of oscillation.Half-bridge drive circuit comprises half bridge driver integrated circuit chip I R2153 10, and the frequency of oscillation of half-bridge drive circuit is by the 4th resistance 11 between second pin two that is connected half bridge driver integrated circuit chip I R2153 10 and the three-prong 3 and the 5th resistance 12 and be connected the three-prong 3 of half bridge driver integrated circuit chip I R2153 10 and the 3rd electric capacity 13 decisions between the 4th pin 4.The electric current that flows through on the half-bridge loop changes, be reflected at instrument transformer 41 ' on, become corresponding change in voltage.Instrument transformer 41 ' output be alternating current, described alternating current is added in the base stage of triode 40 after by diode 42 ' carry out rectification, by the base stage of change triode 40 and the voltage between the emitter, control the conducting of triode 40 and end, thereby the frequency of oscillation of control half-bridge drive circuit reaches exporting the control of the permanent power of lamp load by the adjusting to the drive circuit frequency of oscillation.Specifically as mentioned above to the adjusting of frequency of oscillation.

Fig. 4 is the circuit diagram of electric ballast of the applying piezoelectric transformer of the utility model embodiment 3, and as shown in Figure 4, sampling feedback circuit comprises: first resistance 41, first electric capacity, 42, the second resistance 43, the 3rd resistance 44, second electric capacity 45 and first switching tube.Between the second switch pipe 22 of half-bridge switch circuit and ground, connect first resistance 41, first electric capacity 42 is in parallel with first resistance 41, first switching tube is a triode 40, be in series with second resistance 43 between the base stage of triode 40 and first resistance 41, the 3rd resistance 44 is in parallel with second electric capacity 45, and be connected between the base stage and ground of triode 40, the emitter and collector of triode 40 is in parallel with the 5th resistance 12 of decision half-bridge drive circuit frequency of oscillation.First electric capacity 42 is used for the filtering of the sampling voltage signal of first resistance 41, and second resistance 43 is used for current limliting, and the 3rd resistance 44 is used for secondary sample, obtains the secondary sample voltage signal, and second electric capacity 45 is used for the filtering of secondary sample voltage signal.Half-bridge drive circuit comprises half bridge driver integrated circuit chip I R2153 10, and the frequency of oscillation of half-bridge drive circuit is by the 4th resistance 11 between second pin two that is connected half bridge driver integrated circuit chip I R2153 10 and the three-prong 3 and the 5th resistance 12 and be connected the three-prong 3 of half bridge driver integrated circuit chip I R2153 10 and the 3rd electric capacity 13 decisions between the 4th pin 4.The electric current that flows through on the half-bridge loop changes, be reflected on first resistance 41, become corresponding change in voltage, the sampling voltage signal that first resistance 41 obtains by first electric capacity 42 filtering in parallel with first resistance 41 after, pass through the current limliting of second resistance 43 again, by the 3rd resistance 44 acquisition secondary sample voltage signals and after second electric capacity 45 carries out filtering, be added in the base stage of triode 40, change the base stage of triode 40 and the voltage between the emitter by the secondary sample voltage signal that changes with the electric current on the half-bridge loop, with control triode 40 conducting and end, thereby the frequency of oscillation of control half-bridge drive circuit reaches exporting the control of the permanent power of lamp load by the adjusting to the drive circuit frequency of oscillation.Specifically as mentioned above to the adjusting of frequency of oscillation.

Fig. 5 is the circuit diagram of electric ballast of the applying piezoelectric transformer of the utility model embodiment 4, as shown in Figure 5, sampling feedback circuit comprises: instrument transformer 41 ' and diode 42 ', second resistance 43, the 3rd resistance 44, second electric capacity 45 and first switching tube.Downlink connection instrument transformer 41 between the second switch pipe 22 of half-bridge switch circuit and ground ', instrument transformer 41 ' secondary coil connect diode 42 ' positive pole, first switching tube is a triode 40, the base stage of triode 40 and diode 42 ' negative pole between be in series with second resistance 43, the 3rd resistance 44 is in parallel with second electric capacity 45, and be connected between the base stage and ground of triode 40, the emitter and collector of triode 40 is in parallel with the 5th resistance 12 of decision half-bridge drive circuit frequency of oscillation.Second resistance 43 is used for current limliting, and the 3rd resistance 44 is used for secondary sample, obtains the secondary sample voltage signal, and second electric capacity 45 is used for the filtering of secondary sample voltage signal.Half-bridge drive circuit comprises half bridge driver integrated circuit chip I R2153 10, and the frequency of oscillation of half-bridge drive circuit is by the 4th resistance 11 between second pin two that is connected half bridge driver integrated circuit chip I R2153 10 and the three-prong 3 and the 5th resistance 12 and be connected the three-prong 3 of half bridge driver integrated circuit chip I R215310 and the 3rd electric capacity 13 decisions between the 4th pin 4.The electric current that flows through on the half-bridge loop changes, be reflected at instrument transformer 41 ' on, become corresponding change in voltage.Instrument transformer 41 ' output be alternating current, this alternating current by diode 42 ' carry out rectification after current limliting by second resistance 43, by the 3rd resistance 44 acquisition secondary sample voltage signals and after second electric capacity 45 carries out filtering, be added in the base stage of triode 40, change the base stage of triode 40 and the voltage between the emitter by the secondary sample voltage signal that changes with the electric current on the half-bridge loop, with control triode 40 conducting and end, thereby the frequency of oscillation of control half-bridge drive circuit reaches exporting the control of the permanent power of lamp load by the adjusting to the drive circuit frequency of oscillation.Specifically as mentioned above to the adjusting of frequency of oscillation.

The piezoelectric transformer that is adopted in the electric ballast of the present utility model is different with traditional low-power device, belongs to more powerful piezoelectric transformer, power from 10W to 100W between, can satisfy the demand of common commercial illumination.Therefore, the conversion efficiency to piezoelectric transformer proposes high requirement.Piezoelectric transformer input change-over circuit of the present utility model, the square wave power signal of half-bridge switch circuit output is converted to sine wave or the quasi-sine-wave signal that piezoelectric transformer needs, as the input signal of piezoelectric transformer, guaranteed the effective conversion of piezoelectric transformer.As Fig. 2, Fig. 3, Fig. 4 and shown in Figure 5, piezoelectric transformer input change-over circuit comprises first inductance 31 that is connected in parallel on piezoelectric transformer 30 inputs, and second inductance 32 and the 4th electric capacity 33 that are connected on piezoelectric transformer 30 inputs.By electric capacity-inductance resonance, piezoelectric transformer input change-over circuit is converted to the quasi-sine-wave power signal with the square wave power signal of half-bridge switch circuit output, input signal as piezoelectric transformer 30, satisfy the normal input requirement of piezoelectric transformer, with the power consumption control on the piezoelectric transformer 30 in reasonable range, thereby the temperature rise of piezoelectric transformer 30 can be controlled preferably, guaranteed the effective conversion of piezoelectric transformer 30, output at piezoelectric transformer 30 obtains the lamp load igniting, the voltage and current of normal power supply drives the lamp load operate as normal.

Need to prove; the above only is the preferable specific embodiment of the utility model; rather than to the qualification of technical solutions of the utility model; anyly be familiar with those of ordinary skills of this technology in the suggested technical scope of the utility model; the variation that can expect easily or replacement all should be encompassed within the protection range of the present utility model.

Claims (12)

1, a kind of electric ballast of applying piezoelectric transformer is characterized in that, comprising:

Be used to import the input rectifying filter circuit of the rectification and the filtering of power supply;

Half-bridge drive circuit is connected with described input rectifying filter circuit;

Half-bridge switch circuit by described half-bridge drive circuit drives is connected with described half-bridge drive circuit;

Be used for obtaining the sampling feedback circuit that the sampling voltage signal is controlled the frequency of oscillation of described half-bridge drive circuit, be connected with the half-bridge switch circuit with described half-bridge drive circuit from described half-bridge switch circuit;

Be used for the conversion of signals of described half-bridge switch circuit output is become the sine wave of piezoelectric transformer needs or the piezoelectric transformer input change-over circuit of quasi-sine-wave signal, be connected with described half-bridge switch circuit;

Piezoelectric transformer is connected with described piezoelectric transformer input change-over circuit.

2, electric ballast as claimed in claim 1 is characterized in that, described sampling feedback circuit comprises:

Be used for obtaining first resistance of sampling voltage signal, be connected with described half-bridge switch circuit from described half-bridge switch circuit;

Thereby control first switching tube that described half-bridge drive circuit frequency of oscillation is controlled in conducting or disconnection by the described sampling voltage signal that described first resistance obtains, be connected with half-bridge drive circuit with described first resistance.

3, electric ballast as claimed in claim 2 is characterized in that, described first resistance is connected between the second switch pipe and ground of described half-bridge switch circuit.

4, as claim 2 or 3 described electric ballasts, it is characterized in that, described first switching tube is a triode, and the base stage of described triode is connected with described first resistance, and the emitter and collector of described triode is in parallel with the 5th resistance of decision half-bridge drive circuit frequency of oscillation.

5, electric ballast as claimed in claim 4 is characterized in that, described sampling feedback circuit also comprises:

First electric capacity that is used for filtering, in parallel with described first resistance;

Second resistance that is used for current limliting is connected between the base stage of described first resistance and described triode;

Be used to obtain the 3rd resistance of secondary sample voltage signal, be connected between the base stage and ground of described triode;

Second electric capacity that is used for filtering, in parallel with described the 3rd resistance.

6, electric ballast as claimed in claim 4, it is characterized in that, described half-bridge drive circuit comprises self-oscillation half bridge driver integrated circuit chip I R2153, the 4th resistance of decision half-bridge drive circuit frequency of oscillation and the series connection of the 5th resistance, and be connected between second pin and three-prong of described integrated circuit die I R2153, the 3rd electric capacity of decision half-bridge drive circuit frequency of oscillation is connected between the three-prong and the 4th pin of described integrated circuit die I R2153.

7, electric ballast as claimed in claim 1 is characterized in that, described sampling feedback circuit comprises:

Be used for obtaining from described half-bridge switch circuit the instrument transformer of sampling voltage signal, the main coil of described instrument transformer is connected with described half-bridge switch circuit;

Diode is connected with the secondary coil of described instrument transformer;

Thereby control first switching tube that described half-bridge drive circuit frequency of oscillation is controlled in conducting or disconnection by the described sampling voltage signal that described instrument transformer obtains, be connected with half-bridge drive circuit with described diode.

8, electric ballast as claimed in claim 7 is characterized in that, described instrument transformer is connected between the second switch pipe and ground of described half-bridge switch circuit.

9, as claim 7 or 8 described electric ballasts, it is characterized in that, described first switching tube is a triode, and the base stage of described triode is connected with described diode, and the emitter and collector of described triode is in parallel with the 5th resistance of decision half-bridge drive circuit frequency of oscillation.

10, electric ballast as claimed in claim 9 is characterized in that, described sampling feedback circuit also comprises:

Second resistance that is used for current limliting is connected between the base stage of described diode and described triode;

Be used to obtain the 3rd resistance of secondary sample voltage signal, be connected between the base stage and ground of described triode;

Second electric capacity that is used for filtering, in parallel with described the 3rd resistance.

11, electric ballast as claimed in claim 9, it is characterized in that, described half-bridge drive circuit comprises self-oscillation half bridge driver integrated circuit chip I R2153, the 4th resistance of decision half-bridge drive circuit frequency of oscillation and the series connection of the 5th resistance, and be connected between second pin and three-prong of described integrated circuit die I R2153, the 3rd electric capacity of decision half-bridge drive circuit frequency of oscillation is connected between the three-prong and the 4th pin of described integrated circuit die I R2153.

12, electric ballast as claimed in claim 1, it is characterized in that: described piezoelectric transformer input change-over circuit comprises first inductance, second inductance and the 4th electric capacity, described first inductance is in parallel with the input of described piezoelectric transformer, described second inductance and the 4th capacitances in series, and connect with the input of described piezoelectricity transformation.

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