RU104003U1 - ELECTRONIC START-UP CONTROL UNIT FOR LUMINESCENT LAMP - Google Patents

Abstract

 An electronic ballast for a fluorescent lamp, containing a single-phase bridge rectifier on diodes, connected by input terminals to the input terminals of the device through a series-connected inductor, a radio noise filter shunted by a varistor at the input and a series circuit of two capacitors at the output, the common connection point of which is connected to the device body , and the fuse, the input terminals of the rectifier are shunted by a second series circuit of two capacitors, and the output terminals of the third a series of two capacitors, the common connection point of the capacitors of the second serial circuit is connected to the common connection point of the capacitors of the third serial circuit, a single-phase half-bridge inverter on the first and second transistors with series resistors in the emitter circuits, the transistor and series resistors are bridged by the first and second counter-parallel diodes, respectively, the input terminals of the inverter are connected to the output terminals of the rectifier through diodes and are bridged to the filter capacitor, the fourth serial circuit of the second filter capacitor, the first and second diodes and the third filter capacitor, the connection points of the capacitors and diodes of the fourth serial circuit are connected to the input terminals of the inverter through the third and fourth diodes, respectively, and the common connection point of the first and second diodes of the fourth serial the circuit is connected to a common connection point of the capacitors of the third serial circuit, the base of the first transistor is connected to the anode of the second antiparallel

Description

The utility model relates to instrument engineering and lighting engineering, as well as to converting technology and can be used in the design of power supplies for fluorescent and other types of energy-saving gas-discharge lamps, as well as various high-frequency, including electrotechnological loads. The utility model increases the reliability of a fluorescent lamp with an electronic ballast.

Known electronic ballast for a fluorescent lamp, containing a single-phase bridge rectifier on the diodes, connected by input terminals to the input terminals of the device through a fuse, the output terminals of the rectifier are shunted by a filter capacitor, a single-phase half-bridge inverter on the first and second transistors with counter-parallel diodes, the input terminals of which are connected with the output terminals of the rectifier, the second and third filter capacitors connected in series, the first transistor is shunted van a capacitor and a resistor, a three-winding transformer, a switching capacitor and a switching inductor, forming a series resonant circuit connected with a fluorescent lamp connected to the output terminals of the inverter through the primary winding of the transformer, formed by the common connection points of the second and third filter capacitors and transistors, respectively, the second terminals of the lamp electrodes are connected through a switching capacitor, the base of the first transistor is connected to the collector of the second transistor, through the last a cir cuit of a limiting resistor and a secondary winding of a transformer connected opposite to the primary winding, the base of the second transistor is connected to the emitter of the second transistor through a second serial circuit of a second limiting resistor and a second secondary winding of the transformer connected according to the primary winding (Platan. Electronic components. Catalog. - Publishing House of CJSC Platan Component, 2008. - P.15).

The disadvantage of an electronic ballast for a fluorescent lamp is the low reliability of the lamp due to low power factor and efficiency, which leads to an increase in the amplitude of the currents through the lamp electrodes and, accordingly, the current shape factor, possible overheating of the lamp electrodes by the current of the switching capacitor, the absence protection against abnormal conditions.

Known electronic ballast for a fluorescent lamp, containing a single-phase bridge rectifier on the diodes, connected by the input terminals to the input terminals of the device through a fuse, the output terminals of the rectifier are shunted by the filter capacitor, a single-phase half-bridge inverter on the first and second transistors with series resistors in emitter circuits and counter-parallel diodes, the input terminals of which are connected to the output terminals of the rectifier, connected in series to the second and third filter capacitors, the first transistor is shunted by the capacitor and resistor, a three-winding transformer, a switching capacitor and a switching inductor forming a series resonant circuit connected with a fluorescent lamp, connected through the primary winding of the transformer to the output terminals of the inverter, formed by common points of connection of the second and third filter capacitors and transistors, respectively , the second terminals of the lamp electrodes are connected through a switching capacitor, the base of the first transistor is connected to the collector of the second transistor, through a serial circuit from the limiting resistor and the secondary winding of the transformer connected counterclockwise to the primary winding, the base of the second transistor is connected to the emitter of the second transistor through a second serial circuit from the second limiting resistor and the second secondary winding of the transformer connected according to the primary winding (IR2520 - New opportunities in the development of electronic ballasts // Power Electronics. - 2006. - No. 2. - S.26).

The disadvantage of an electronic ballast for a fluorescent lamp is the low reliability of the lamp due to low power factor and efficiency, which leads to an increase in the amplitude of the currents through the lamp electrodes and, accordingly, the current shape factor, possible overheating of the lamp electrodes by the current of the switching capacitor, the absence protection against abnormal conditions.

Known electronic ballast for a fluorescent lamp, containing a single-phase bridge rectifier on the diodes, connected by the input terminals to the input terminals of the device through a fuse, the output terminals of the rectifier are shunted by the filter capacitor, a single-phase half-bridge inverter on the first and second transistors with series resistors in emitter circuits and counter-parallel diodes, the input terminals of which are connected to the output terminals of the rectifier, connected in series to the second and third filter capacitors, the first transistor is shunted by the capacitor and resistor, a three-winding transformer, a switching capacitor and a switching inductor forming a series resonant circuit connected with a fluorescent lamp, connected through the primary winding of the transformer to the output terminals of the inverter, formed by common points of connection of the second and third filter capacitors and transistors, respectively , the second terminals of the lamp electrodes are connected through a switching capacitor, the base of the first transistor is connected to the collector of the second transistor, through a serial circuit from the limiting resistor and the secondary winding of the transformer connected counterclockwise to the primary winding, the base of the second transistor is connected to the emitter of the second transistor through a second serial circuit from the second limiting resistor and the second secondary winding of the transformer connected according to the primary winding (Otero Pascal.M. Motorola's D2 Series Transistors for Fluorescent Converters. - Motorola, 1997 .-- AN1577).

The indicated electronic ballast for fluorescent lamps is the closest in technical essence to a utility model and is selected as a prototype.

The disadvantage of the prototype is the low reliability of the lamp due to the high values of the amplitudes of the currents through the electrodes of the lamp and, accordingly, the current shape factor, the lack of heating of the electrodes before turning on the lamp and the possible overheating of the lamp electrodes by the current of the switching capacitor during its operation, the lack of protection against abnormal conditions.

The utility model is aimed at solving the problem of increasing the reliability of a fluorescent lamp with an electronic ballast, which is the purpose of the utility model.

This goal is achieved by the fact that in an electronic ballast for a fluorescent lamp containing a single-phase bridge rectifier on diodes, connected by input terminals to the input terminals of the device through a series-connected inductor, a radio noise filter shunted by a varistor at the input and a series circuit of two capacitors at the output, common the connection point of which is connected to the device body, and the fuse, the input terminals of the rectifier are bridged by a second serial circuit of two cond of the capacitors, and the output terminals of the third serial circuit of two capacitors, the common connection point of the capacitors of the second serial circuit is connected to the common connection point of the capacitors of the third serial circuit, a single-phase half-bridge inverter on the first and second transistors with series resistors in the emitter circuits, transistor and series resistors are shunted the first and second counter-parallel diodes, respectively, the input terminals of the inverter are connected to the output terminals of the rectifier the capacitors and diodes of the fourth serial circuit are connected to the input terminals of the inverter through the third and fourth diodes, respectively, and the common connection point is through the diodes and are shunted by the filter capacitor, the fourth series circuit from the second filter capacitor, the first and second diodes and the third filter capacitor, the first and second diodes of the fourth serial circuit is connected to a common connection point of the capacitors of the third serial circuit, the base of the first transistor is connected inena with the anode of the second anti-parallel diode through the thyristor, the collector of the second transistor is connected to the anode of the second anti-parallel diode through the fifth serial circuit of the resistor and capacitor, the resistor of the fifth serial circuit is shunted by the sixth serial circuit of the second resistor and fifth diode, the common point of the resistor and the capacitor of the fifth serial circuit is connected to the base of the second transistor through the seventh serial circuit of the third resistor and a threshold element, the thyristor’s electrode is connected to the cathode through the fourth resistor and the second capacitor, the circuit from the first transistor with a series resistor is shunted by the fifth resistor and the third capacitor, a three-winding transformer, a posistor, as well as a switching capacitor and a switching inductor forming a series resonant circuit connected through a fluorescent lamp through the primary winding of the transformer to the output terminals of the inverter, formed by the common connection points of the capacitors of the second series of the circuit and the series resistor of the first transistor with the collector of the second transistor, respectively, the first conclusions of the lamp electrodes are shunted by a switching capacitor and a posistor, and the second conclusions are included in the serial resonant circuit, the base of the first transistor is connected to the emitter through the fourth capacitor, the sixth resistor and the eighth serial circuit from the limiting throttle, limiting resistor and secondary winding of the transformer included in the opposite direction with the primary winding, the base of the second trans the stator is connected to the emitter through the fifth capacitor, the seventh resistor and the ninth serial circuit from the second limiting reactor, the second limiting resistor and the second secondary winding of the transformer connected in accordance with the primary winding, the common connection point of the second limiting resistor and the second secondary winding of the transformer of the ninth serial circuit is connected to the thyristor control electrode through the tenth serial circuit of the eighth resistor and the second threshold element.

A significant difference characterizing the utility model is an increase in the reliability of operation of a fluorescent lamp with an electronic ballast, which is achieved by a comprehensive decrease in the amplitudes of the currents through the lamp electrodes and, accordingly, the current shape factor, by ensuring the heating of the electrodes before turning on the lamp and preventing their overheating during prolonged operation, providing reliable start-up and effective protection of the device. The inventive electronic ballast can be used for energy-saving applications that provide increased reliability with an effective "warm" start and protection from abnormal conditions, including the "open cathode" of a fluorescent lamp and apparatus, overloads and overheating of the lamp electrodes.

Improving the reliability of a linear fluorescent lamp with an electronic ballast is the obtained technical result, due to new elements in the circuit, the order in which they are turned on, and new connections, that is, the hallmarks of the utility model. Thus, the distinguishing features of the claimed electronic ballast for fluorescent lamps are significant.

The figure shows a diagram of an electronic ballast for a fluorescent lamp.

The electronic ballast for fluorescent lamp 1 contains a single-phase bridge rectifier on diodes 2-5, connected by input terminals to the input terminals of the device through a series-connected inductor 6, a radio interference filter 7, shunted by a varistor 8 at the input and a series circuit of two capacitors 9, 10 at the output , the common connection point of which is connected to the apparatus body, and the fuse 11, the input terminals of the rectifier are shunted by a second series circuit of two capacitors 12, 13, and the output In the third series circuit of two capacitors 14, 15, the common connection point of the capacitors of the second serial circuit is connected to the common connection point of the capacitors of the third serial circuit, a single-phase half-bridge inverter on the first 16 and second 17 transistors with series resistors 18, 19 in the emitter circuits, the transistor circuit and series resistors are shunted by the first 20 and second 21 counter-parallel diodes, respectively, the input terminals of the inverter are connected to the output terminals of the rectifier diodes 22, 23 and are shunted by the filter capacitor 24, the fourth series circuit from the second filter capacitor 25, the first 26 and second 27 diodes and the third filter capacitor 28, the connection points of the capacitors and diodes of the fourth series circuit are connected to the input terminals of the inverter through the third 29 and fourth 30 diodes, respectively, and the common connection point of the first and second diodes of the fourth serial circuit is connected to the common connection point of the capacitors of the third serial circuit, the base of the first transistor with connected to the anode of the second anti-parallel diode through the thyristor 31, the collector of the second transistor is connected to the anode of the second anti-parallel diode through the fifth serial circuit from the resistor 32 and the capacitor 33, the resistor of the fifth serial circuit is shunted by the sixth serial circuit from the second resistor 34 and the fifth diode 35 , the common connection point of the resistor and capacitor of the fifth serial circuit is connected to the base of the second transistor through the seventh serial circuit of the third resistor 36 and a threshold ele Ententa 37, the thyristor control electrode is connected to the cathode through the fourth resistor 38 and the second capacitor 39, the circuit from the first transistor with a series resistor is shunted by the fifth resistor 40 and the third capacitor 41, a three-winding transformer, a resistor 42, as well as a switching capacitor 43 and a switching inductor 44, forming a series resonant circuit with a fluorescent lamp, connected through the primary winding 45 of the transformer to the output terminals of the inverter, formed by common points of connection of the capacitor of the second series circuit and the series resistor of the first transistor with the collector of the second transistor, respectively, the first conclusions of the lamp electrodes are shunted by a switching capacitor and a posistor, and the second conclusions are included in the serial resonant circuit, the base of the first transistor is connected to the emitter through the fourth capacitor 46, the sixth resistor 47, and the eighth serial circuit of the restriction inductor 48, the restriction resistor 49 and the secondary winding 50 of the transformer included in the opposite direction primary winding, the base of the second transistor is connected to the emitter through the fifth capacitor 51, the seventh resistor 52 and the ninth serial circuit from the second limiting choke 53, the second limiting resistor 54 and the second secondary winding 55 of the transformer connected in accordance with the primary winding, a common connection point of the second limiting resistor and the second secondary winding of the transformer of the ninth serial circuit is connected to the control electrode of the thyristor through the tenth serial circuit of the eighth resistor ora 56 and a second threshold element 57.

Electronic ballast for fluorescent lamp 1 in steady state operates as follows. A single-phase rectifier on diodes 2-5 generates and supplies a constant voltage to the input of a single-phase half-bridge inverter on transistors 16, 17 with series resistors 18, 19 in the emitter circuits and counter-parallel diodes 20, 21. A filter capacitor 24 is used as a rectifier DC voltage filter At the same time, the AC voltage filtering is carried out by the inductor 6 and the second series circuit of two capacitors 12, 13, and the DC voltage filtering by the third series circuit of two capacitors 14, 15 and the fourth series circuit of the second 25 and third 28 filter capacitors and the first 26 and second 27 diodes. Together with the third 29 and fourth 30 diodes, the fourth serial circuit (25-28) forms a clamp (voltage limiter), which restores the voltage at the input terminals of the inverter in the intervals of its decline, due to voltage ripple at the output of a single-phase bridge rectifier. The charge of the filter capacitors 26, 28 occurs when they are sequentially turned on through the diodes 26, 27, and the discharge when connected in parallel through the diodes 29, 30. The diodes 22, 23 are cut-off. Their work provides a reduction in the harmonic coefficient of the current consumed by the device from the mains. Varistor 8 protects the device from network surges, and fuse 11 from short circuits and overloads in the circuit. To suppress conducted interference, capacitors 9, 10 and a radio noise filter 7 are included in the electronic control gear circuitry. Transistors 16, 17 of a single-phase half-bridge inverter are turned on and conduct current alternately. The inverter operates in the self-generating mode, which is achieved by applying a sequential resonant circuit for turning on the fluorescent lamp 1 and feedback due to a three-winding transformer, the primary winding of which 45 is connected in series to the inverter load circuit (1, 42-44), and the secondary windings 50, 55 are included in the base circuit of the transistors 16, 17. In this case, the secondary windings 50, 55 of the transformer have a counter inclusion. The base currents of transistors 16, 17 during their operation are proportional to the current in the load circuit (1, 42-44). An increase in the base current of one transistor (16 or 17) leads to a decrease in the base current of another transistor (17 or 16), which causes them to periodically switch at a frequency determined by the capacitance of the switching capacitor 43 and the inductance of the switching inductor 44. The current in the load circuit (1, 42-44) has a quasi-sinusoidal shape. Limit chokes 48, 53 are used to limit the base currents of the first 16 and second 17 transistors and currents of the secondary windings 50, 55 of the three-winding transformer together with the limiting resistors 49, 54.

The fourth capacitor 46, the sixth resistor 47, the fifth capacitor 51 and the seventh resistor 52 limit the reverse voltage levels at the bases of transistors 16, 17 relative to their emitters and increase the noise immunity of the control circuits. The fifth resistor 40 and the third capacitor 41 provide the mode of quasi-resonant switching of transistors 16, 17 and are damper elements. The fifth resistor 40, the resistor 32 capacitor 33 (fifth serial circuit) together with the elements of the seventh serial circuit 36, 37 form a starting circuit, the operation of which guarantees a reliable initial start-up of the device. When the capacitor 33 is charged, the threshold element 37 is triggered, which leads to the unlocking of the second transistor 17. The resistor 32 is shunted by a sixth series circuit from the second resistor 34 and the fifth diode 35, designed to discharge the capacitor 33 through the second transistor 17 and bypass the starting circuit. Counter-parallel diodes 20, 21 limit the magnitude of the reverse voltages on the transistors 16, 17 of the inverter. The fifth (damping) resistor 40 and the third (damping) capacitor 41 reduce the levels of switching overvoltages on the transistors 16, 17. In addition, due to the damper capacitor 41, a smooth increase in the voltage across the transistors 16, 17 and counter-parallel diodes 19, 20 (soft or quasi-resonant switching) when the inverter is operating. Series resistors 18, 19 in the emitter circuits of transistors 16, 17 damp the inverter load circuit and limit the inrush currents through transistors 16, 17 in the switching intervals. Protection of the electronic ballast for a fluorescent lamp from violations of the electric mode and the failure of elements is ensured, in particular, by thyristor 31. When the device is operating in an abnormal "open cathode" mode of a fluorescent lamp (the lamp does not light), currents and voltages increase when the lamp is turned off or replaced. on the elements of the load chain (1, 42-44). The limitation of the growth of currents and voltages in the "open cathode" mode of the fluorescent lamp is provided by turning on the thyristor 31, which blocks the base circuit of the first transistor 16 of the inverter and causes the device to turn off automatically. The thyristor 31 is controlled along the tenth serial circuit of the second threshold element 57 and the eighth resistor 56. The second capacitor 39 and the fourth resistor 38 bypass the control electrode of the thyristor 31, which increases the noise immunity and ensures the selectivity of the protective circuits of the device. With increasing currents and voltages in the load circuit (elements 1, 42-45) of the fluorescent lamp 1, the voltages at the second secondary winding 45 of the transformer and the series resistor 19 of the second transistor 17 increase, which leads to the actuation of the second threshold element 57 and, accordingly, the inclusion of the thyristor 31 The current of the turned-on thyristor 31 is supported by the mains power supply and is the sum of the currents through the resistors 40, 18, 47, and 49. The base potential of the first transistor 16 becomes almost equal to the emitter potential of the second transistor nzistor 17, which leads to a breakdown of oscillations (self-generation) and blocking of the inverter. The fourth resistor 38 provides the discharge of the second capacitor 39 and the restoration of the protection circuit when the DC voltage of the device is disconnected from the mains source. When the electronic ballast is started, the resistance of the posistor 42 is relatively low, and it shunts the electrodes of the fluorescent lamp 1. The electrodes of the lamp 1 are preheated to the required temperature by the current through the resistor 42. Then, as the resistor 42 rises, the resistance increases and an electric discharge is initiated in the lamp 1. An underestimated (controlled) heating of the lamp electrodes after its ignition (in order to optimize the emission properties) occurs due to the current flowing through the switching to the capacitor 43 and the resistor 42.

The inverter transistors 16, 17 can have structures with built-in or modular designs with pre-installed anti-parallel diodes 20, 21. In this case, there is no need to install additional anti-parallel diodes 20, 21. Filter capacitors 25, 28 are electrolytic or film. Diodes 20-23 should be fast. As threshold elements 37, 57, zener diodes, stabilizers, dinistors or conventional diodes can be used. To increase the threshold, it is possible to connect several diodes in series. The radio interference filter 7 is performed according to any T or U-shaped circuit, including with magnetically coupled chokes in the network L and zero N wires connecting the device. The circuit of an electronic ballast for a fluorescent lamp may lack some elements and connections. The principle of operation does not change, however, the characteristics of the device may slightly deteriorate. In particular, there may be no connection between the common connection point of the diodes 26, 27 of the fourth series circuit. In this case, it is possible to install only one diode in series with the second 25 and third 28 filter capacitors, which simplifies the circuit. One of the diodes 22, 23 may be missing, which slightly increases the harmonic coefficient of the current consumed from the mains supply. The base circuits of transistors 16, 17, respectively, including elements 46-50 and 51-55, can be adjusted by excluding some elements and circuits, which is determined by the operating mode of the device. In the simplest case, the base circuits of transistors 16, 17 contain only the secondary winding (50 or 55) of the transformer and a series terminating resistor (49 or 54).

Compared with the prototype significantly increases the reliability of the fluorescent lamp with an electronic ballast. The inventive electronic ballast can be used for critical energy-saving applications, providing increased reliability with a "warm" start of the fluorescent lamp and protection from the "open cathode", overload and overheating of the device. This is achieved through a comprehensive reduction in the amplitudes of the currents through the electrodes of the fluorescent lamp in continuous operation and the values of the current shape coefficient. Optimum operating modes are provided with controlled heating of the fluorescent lamp electrodes. Positive qualities are also due to the use of an effective thyristor protection circuit, optimization of transistor control circuits and starting mode, reduction of switching losses in the inverter transistors and diodes of the device, as well as electrical losses in the switching inductor. Reduced levels of overvoltage on the elements of the device, electromagnetic interference arising when the transistors are turned off, electrical losses in the switching choke and other elements of the device due to the "soft" switching of transistors and the action of the damper capacitor. The stability and, consequently, the reliability of the electronic ballast for a fluorescent lamp, inversion failures during dynamic load operation are increased, which also increases the reliability of the fluorescent lamp with an electronic ballast.

Improving the reliability of a fluorescent lamp with an electronic ballasts is evaluated by the mean time between failures. In accordance with the results of experimental studies, the time between lamp failures and its service life can be increased by 2.0–2.5 times.

The design can be greatly simplified and the price of the device can be reduced by optimizing the circuit and making it possible to use transistors and diodes with reduced requirements for their parameters and a lower price.

Compared with the prototype can be reduced (up to 10%) and overall dimensions of the inventive electronic ballasts for fluorescent lamps by optimizing the circuit and design, which also extends its scope.

Claims (1)

An electronic ballast for a fluorescent lamp, containing a single-phase bridge rectifier on diodes, connected by input terminals to the input terminals of the device via a series-connected inductor, a radio noise filter shunted by a varistor at the input and a series circuit of two capacitors at the output, the common connection point of which is connected to the device body , and the fuse, the input terminals of the rectifier are shunted by a second series circuit of two capacitors, and the output terminals of the third a series of two capacitors, the common connection point of the capacitors of the second serial circuit is connected to the common connection point of the capacitors of the third serial circuit, a single-phase half-bridge inverter on the first and second transistors with series resistors in the emitter circuits, the transistor and series resistors are bridged by the first and second counter-parallel diodes respectively, the input terminals of the inverter are connected to the output terminals of the rectifier through the diodes and are bridged to the filter capacitor, the fourth serial circuit of the second filter capacitor, the first and second diodes and the third filter capacitor, the connection points of the capacitors and diodes of the fourth serial circuit are connected to the input terminals of the inverter through the third and fourth diodes, respectively, and the common connection point of the first and second diodes of the fourth serial the circuit is connected to a common connection point of the capacitors of the third serial circuit, the base of the first transistor is connected to the anode of the second counter-parallel a single diode through a thyristor, the collector of the second transistor is connected to the anode of the second anti-parallel diode through a fifth serial circuit of a resistor and a capacitor, a resistor of the fifth serial circuit is shunted by a sixth serial circuit of a second resistor and a fifth diode, a common connection point of the resistor and capacitor of the fifth serial circuit is connected to the base of the second transistor through the seventh serial circuit of the third resistor and the threshold element, the thyristor control electrode is connected to the house through the fourth resistor and the second capacitor, the circuit from the first transistor with a series resistor is shunted by the fifth resistor and the third capacitor, a three-winding transformer, a posistor, as well as a switching capacitor and a switching inductor, forming a series resonant circuit connected to the output transformer through the primary winding of the transformer the conclusions of the inverter formed by the common connection points of the capacitors of the second series circuit and the series resistor of the second transistor with the collector of the second transistor, respectively, the first leads of the lamp electrodes are shunted by a switching capacitor and a posistor, and the second leads are connected to the serial resonant circuit, the base of the first transistor is connected to the emitter through the fourth capacitor, the sixth resistor and the eighth serial circuit from the limiting inductor, the limiting resistor and the secondary winding of the transformer, included in the opposite direction with the primary winding, the base of the second transistor is connected to the emitter through the fifth a capacitor, a seventh resistor and a ninth series circuit from a second limiting reactor, a second limiting resistor and a second secondary winding of a transformer connected in accordance with the primary winding, a common connection point of a second limiting resistor and a second secondary winding of a transformer of the ninth serial circuit is connected to a thyristor control electrode through a tenth serial a circuit of an eighth resistor and a second threshold element.