LT4262B - Apparatus for igniting discharge lamps - Google Patents

Abstract

This device belongs to the sphere of electrical engineering and is used for lighting up high-pressure gas discharge lamps. In order to increase the lifespan of the device and the high-pressure gas discharge lamps, this device consists of an impulse transformer, current accumulator, ballast baffle, power thyristor and control unit, which is composed of two resistors and a diode thyristor. Additionally, the device has a circuit for measuring the duration of series of ignition impulses, key and circuit for determining the threshold of key opening. The key consists of an n-p-n transistor and capacitor, connected between this transistor, collector and emitter. The circuit for measuring the duration of series of ignition impulses is connected between the n-p-n transistor emitter and the end of the primary winding of the impulse transformer. The circuit for determining the threshold of the key opening is connected between the base of transistor and the outgoing connection of the circuit for measuring the duration of the series of ignition impulses. The outgoing connection of the control unit is connected to the control electrode of the power thyristor.

Description

The invention relates to the field of electrical engineering and can be used with high pressure gas discharge lamps in which the ignition voltage exceeds the supply voltage of the AC mains.

A circuit diagram of a pulsed ignition device consisting of a gas discharge lamp connected in series to a capacitor, switching element and secondary winding of a transformer is known. The primary winding of the transformer is adapted for connection to the mains. (See - Description of Invention U.S. Patent No. 3,976,910, 2 H05B41 / 14 ONLY, June 24, 1976)

The disadvantage of this unit is that it cannot reliably turn on the gas discharge lamp.

The closest to the proposed device is a gas discharge lamp pulse ignition device consisting of a pulse transformer having a primary and secondary winding, a ballast choke, and a current accumulator consisting of a first and a second capacitor and a diode. The known device also includes a power thyristor for controlling the current capacitor capacitor discharge through the primary winding of the pulse transformer and a control unit. The thyristor cathode, the diode anode, the first terminal of the capacitor first capacitor, and one terminal of the control unit are connected to a single terminal of an AC mains lead and a gas discharge lamp. The anode of the thyristor is connected to a common point connecting the cathode of said diode and the first terminal of the second capacitor of the current collector. The control electrode of the thyristor is connected to the output of the control unit. The start of said ballast choke winding is connected to a phase conductor of the AC mains and the end to the start of the secondary winding of the pulse transformer, the end of the latter winding being connected to the second terminal of the gas discharge lamp. The second terminal of the first capacitor of said current storage device is connected to the end of the primary winding of the pulse transformer and the second terminal of the second capacitor to the beginning of this winding and the input of the control unit. (See Former USSR Invention Description a.l. No. 813829, ONLY 3 H 05B 41/23, Publ. 25 March 1981).

The disadvantage of this unit is the insufficient life span of the unit itself as well as the gas discharge lamp for which it is used.

The reason for this is that the ignition pulses of the lamp are formed at each positive half-life of the mains voltage, over the entire duration of the device circuit to the mains, without any limitation on the pulse series duration. Therefore, when for some reason the supply voltage disappears for a few half-periods, the hot lamp, which has not been able to cool down during that voltage dissipation time, attempts to ignite again with high-voltage ignition pulses, which may shortly burn the lamp cathode.

In addition, the unit heats up and leaves the line up quickly without interruption.

The object of the present invention is to extend the life of this device as well as the gas discharge lamp with which it is used.

This object is achieved by providing, in the known device of the aforesaid apparatus consisting of a pulse transformer having primary and secondary windings, a ballast choke, a current storage device consisting of a first and a second capacitor and a diode, a power thyristor for controlling the discharge capacitor capacitance , and a control unit, wherein the power thyristor cathode, diode anode, the first terminal of the capacitor first capacitor and one terminal of the control unit are connected to a ground of the AC mains lead and the first terminal of the gas discharge lamp, the thyristor anode is connected to a common point, connecting the cathode of said diode and the first terminal of the second capacitor of the current storage device, the control electrode of the thyristor is connected to the output of the control unit and the start of said ballast choke winding is connected to an AC power supply. o the phase wire and the end to the start of the secondary winding of the pulse transformer, the end of the secondary winding of the pulse transformer is connected to the second terminal of the gas discharge lamp, the second terminal of the capacitor first capacitor is connected to the terminal of the pulse transformer. at the start of this winding, there is an additional input circuit for determining the duration of the ignition pulse, the key, and the circuit for determining the opening threshold of this key. The key consists of an n-p-n transistor and a capacitor connected between its collector and emitter. The first input of the control unit is connected to said common point to which the anode of said power thyristor is connected and to a single output of a resistor connected in parallel to said second capacitor capacitor. The control unit has an auxiliary input connected to the collector of said n-p-n transistor. Between the emitter of this transistor connected to the mains lead and the end of the primary winding of the pulse transformer, said pulse series duration circuit is connected and between said transistor base and the output of the pulse series circuit circuit is said said circuit opening threshold circuit.

The pulse series duration determining circuit consists of an electrolytic capacitor, a resistor and a diode. The negative terminal of the electrolytic capacitor is connected to a zero wire of the AC mains, and the positive terminal of this capacitor to said series-connected resistor and diode connected to this circuit so that the current flows from the primary winding of the pulse transformer to said positive capacitor. concludes.

The key opening threshold setting circuit is comprised of a series of resistor and stabilizer coupled in series and is coupled between the base of the n-p-n transistor and said positive terminal of said electrolytic capacitor included in the pulse series duration determining circuit output. The stabilizer is connected to this circuit in the direction of the gate n-p-n transistor.

The control unit consists of a dynistor and first and second resistors. The cathode outputs of the dinistor comprise the output of this block, the first output of the first resistor being said first input of the control unit, and the anode of the dinistor together with one output of the second resistor and the second output of the first resistor. The second output of the second resistor of the control unit is the above output of the control unit connected to a zero wire of the AC mains.

The ratio between the resistance of the first and second resistors of the control unit is between 1.8 and 3.5, and their values are chosen depending on the size of the breaker voltage of the dynistor so that the current flows through the dynistor and the ignition pulse is formed maximum network voltage values greater than 45 °.

The present invention is illustrated by a drawing which shows a schematic diagram of a gas discharge lamp ignition device.

The proposed device for igniting high pressure gas discharge lamps and powered from an AC mains comprises a pulse transformer 1 having a primary winding 2 and a secondary winding 3, a ballast choke 4, a current accumulator comprising a first capacitor 5, a second capacitor 6, and the diode device 7 also includes a power thyristor 8 for controlling the discharge of capacitor 5 and 6 through the primary winding 2 of the pulse transformer 1, and a control unit 9 having first and second input and output, ignition pulse duration detecting circuit 10, key 11 and a chain .10 12 that sets the key opening threshold. The cathode of the thyristor 8, the anode of the diode 7, the first terminal of the capacitor 5 of the current collector, and one terminal of the control unit 9 are connected to the ground wire of the AC mains and the first terminal 13 of the high pressure gas discharge lamp. The anode of the force thyristor 8 is connected to a common point connecting the cathode of the diode 7, the first terminal of the current capacitor second capacitor 6, one terminal of a resistor 14 connected in parallel to this capacitor and the first input of the control unit 9. The control electrode of the power thyristor 8 is connected to the output of the control unit 9. The start of the winding of said ballast choke 4 is connected to the phase wire of the AC mains and the end to the start of the secondary winding 3 of the pulse transformer 1. The end 3 of the secondary winding of this transformer is connected to the second terminal 13 of the gas discharge lamp. The second terminal of the first capacitor 5 of said current storage device is connected to the end of the primary winding 2 of the pulse transformer 1 and the second terminal of the second capacitor 6 together with the second terminal of the resistor 14 to the beginning of this winding.

The ignition pulse series duration determining circuit 10 is comprised of an electrolytic capacitor 15, a resistor 16, and a diode 17. The key 11 is comprised of an n-p-n transistor 18 and a capacitor.

19 connected between the collector of the transistor 18 and the emitter. The opening threshold setting circuit 12 of the key 11 is comprised of a series of resistor 20 and stabilizer 21 connected in series. The pulse series duration setting circuit 10 is coupled between the emitter of the n-p-n transistor 18 and the primary winding 2 end of the pulse transformer 4. The negative terminals of the electrolytic capacitor 15 are connected to the neutral wire of the AC mains and the positive terminals to the series resistor 16 and diode 17. The diode 17 is connected to this circuit so that the current flows from the primary winding 2 of the pulse transformer 1. towards the electrolytic capacitor 15.

The circuit 12 defining the opening threshold of the key 11 is coupled between the base of the n-p-n transistor 18 and the positive terminal of the electrolytic capacitor 15 forming the output of the circuit 10. The stabilizer 21 of the circuit 12 is energized by a gate n-p-n transistor 18 in the direction.

The control unit 9 is comprised of a dimmer 22, a first resistor 23 and a second resistor 24. The cathode of the dimmer 22 comprises an output of the control unit 9, one of said outputs of the first resistor 23 and said anode of the distoristor 22 the second output of the first resistor 23 forming said auxiliary input of the control unit 9 to which the collector of the npn transistor 18 is connected. The second output of the second resistor 24 is the aforementioned output of control unit 9, which is connected to a zero wire of the AC mains. The ratio between the resistors of the first 23 and the second 24 of the control unit 9 is between 1.8 and 3.5 and their magnitudes are chosen depending on the breakdown voltage of the dynistor 22 so that the current through the dynistor 22 begins to flow and the ignition pulse is formed so that the phase of this pulse does not exceed the instantaneous maximum value of the mains voltage by more than 45 °. For example, using a CN 102 A high-voltage breaker (52-56 V), the resistance of the first resistor 23 is about 270 ΚΩ and that of the second resistor 24 is about 150 ΚΩ.

Between the end of the primary winding 2 of the impulse transformer 1 and the start of the secondary winding 3, resistors 25 and 26 are formed which form a ballast impedance. Between the start of the secondary winding 3 of the pulse transformer 1 and the neutral of the AC mains, a mains filter of the capacitor 27 serving the AC power is applied.

The unit must be integrated into the hood of a high pressure gas discharge lamp. The lamp is connected via a ballast choke to a 220 V 50 Hz mains supply.

the device works as follows.

During the negative half-life of the AC mains voltage, energy is stored in capacitors 5 and 6 of the current accumulator.

The current of the capacitor 6 is limited by the resistor 14. At this time, no current flows through the control unit dynamo 22 and the power thyristor 8 is closed. During the positive half-life, when the voltage in the resistors 23 and 24 rises to 52-56 V, the dynistor 22 opens and the power thyristor 8 opens. The energy stored in the capacitors 5 and 6 of the current accumulator is discharged through the primary winding 2 of the pulse transformer 1. , 0 - 4.8 kV output pulse with a duration of 0.5 amplitude at 1ps. The output pulse is shaped for each positive half-life of the supply voltage so that its phase does not exceed the instantaneous maximum value of the mains voltage by more than 45 °. This is determined by the opening voltage of the dynistor 22, which is relatively high (52-56V), and the resistor sizes 23 and 24. The thyristor 8, which has an opening voltage of only 2-3V, is not allowed to form the lamp opening pulse too early, i.e., when the mains voltage is still close to 0, the pulse is not formed. If the ignition pulse were formed at this point, the lamp 13 would not burn because the energy to maintain its discharge would be too low.

The duration of the ignition pulse series after power on is 30s - 3 min, i.e. as long as the transient processes of the gas discharge lamp continue.

This duration is determined by the parameters of the electrolytic capacitor 15 of the circuit 10, the resistor 16 and the stabilron 21 of the circuit 12. The diode 17 in the circuit 10 serves as a rectifier for the electrolytic capacitor 15. When the set time of 30s to 3mins in the circuit 10 expires, the circuit 12 determining the opening threshold of the key 11 opens the transistor 18 of the key 11 n25 pn. the thyristor 8 is no longer impeded and flows through the collector-emitter circuit of the npn transistor 18 directly to the zero wire. At present, the secondary winding 3 of the pulse transformer 1 of the ignition device serves as an additional ballast choke in the lamp 13 circuit. Since the inductance of the transformer 1 is very small compared to the inductance of the ballast choke 4, it can be neglected.

The capacitor 19 applied between the collector and the emitter of the n-p-n transistor 18 prevents the voltage between the collector and the emitter from dropping to zero while the transistor 18 is closed, i.e.. lamps

13 ignition pulses in series during formation (30s -3min) and thus prevents voltage pulsation.

Claims (5)

Definition of the Invention A gas discharge lamp ignition device comprising a pulse transformer having a primary and secondary winding, a ballast choke, a current accumulator comprising a first and a second capacitor and a diode, a power thyristor for controlling the discharge capacitor capacitor discharge through the pulse transformer primary winding, and and a control unit, wherein the cathode of said power thyristor, the anode of the current storage diode, the first terminals of the first capacitor and one terminal of the control unit are connected to a single terminal of an AC mains and a gas discharge lamp; connecting the cathode of said diode and the first terminal of the second capacitor of the current storage device, the control electrode of the power thyristor is connected to the output of the control unit, the start of said ballast choke winding is connected to a phase and a wire and an end to the start of the secondary winding of the pulse transformer, and the secondary winding end of this transformer is connected to the second terminal of the gas discharge lamp, the second terminal of the capacitor first capacitor is connected to the primary winding end of the pulse transformer. the beginning of this winding being characterized by a circuit for detecting the duration of the ignition pulse, a key and a circuit defining the opening threshold of said key, said key consisting of a npn transistor and a first input of a control unit connected between its collector and emitter. at one common end of said common point, to which said power thyristor anode is connected, and of a resistor connected in parallel to said second capacitor capacitor, the control unit has an additional input connected to said npn transistor with a thickness collector, said ignition pulse series duration circuit is coupled between a transistor emitter connected to an AC mains zero wire and a pulse transformer primary winding end, and said key opening threshold circuit between said transistor base and said pulse series the output of the duration-determining circuit. 2. An ignition device according to claim 1, characterized in that the circuit for determining the duration of the ignition pulse is composed of an electrolytic capacitor, a resistor and a diode, furthermore, the negative terminals of the electrolytic capacitor are connected to an AC mains lead and to the said resistor and diode connected in series, the latter being connected to said circuit in such a way that the current flows from the primary winding of the pulse transformer towards said electrolytic capacitor during a positive half-life. 3. An ignition device according to claims 1 and 2, characterized in that the key opening threshold setting circuit is comprised of a series of resistor and stabilizer connected in series between said base of the npn transistor and said electrolytic capacitor included in the ignition pulse duration detection circuit, forming the output of the latter circuit, and the stabilron is coupled to this circuit in the direction of the gate npn transistor. 4. The ignition device of claim 1, wherein the control unit comprises a dinistor and first and second resistors, the cathode terminals of the diodes forming an output of said unit, one terminating of said first resistor and said anode of said diodes and a second output of said first resistor, said auxiliary input of said unit, and a second output of a second resistor of said control unit, said auxiliary output of said control unit connected to a zero wire of the AC mains. 5. Ignition device according to claims 1 and 4, characterized in that the ratio between the resistors of the first and second resistors of the control unit is between 1.8 and 3.5, the magnitudes of which are selected according to the magnitude of the breakdown voltage of the dynistor. and the ignition pulse is formed at such a moment that the phase of this pulse does not exceed the instantaneous maximum voltage of the mains voltage by more than 45 °.