SU1624709A1 - Preheat flourescent lamp starter - Google Patents

Abstract

The invention relates to electrical engineering. The purpose of the invention is to save energy. The device contains a voltage control unit 1, a power source 2, a threshold unit 3, an electronic key 4, a protection unit 5 and an electromagnetic key 6. The device makes several attempts to ignite a fluorescent lamp and, when the lamp does not light up, goes into standby mode, in this case it has small consumption from the network. 1 hp ff, 1 ill.

Description

The invention relates to electrical engineering and can be used in lighting installations with fluorescent lamps (LL) having heated electrodes.

The aim of the invention is to save electricity.

The drawing shows a circuit diagram of a device for igniting a fluorescent lamp with heated electrodes.

A device for igniting a fluorescent lamp (LL) with heated electrodes comprises a voltage control unit 1, power supplies 2, a threshold unit 3, an electronic key 4, a protection unit 5 and an electromagnetic key 6. A ballast inductor 8 and a switch are installed in the operating circuit of the fluorescent lamp 7 9, h in the filament circuit - capacitor 10 and make contacts 11 of the electromagnetic key

6. Block 1 · consists of an input diode 12, a zener diode 13, a resistor 14, a zener diode 15, and an output diode 16. A power supply 2 is connected to the output and the negative terminal of block 1 and is made in the form of a storage capacitor 17. A block 3 assembled is connected to it on transistors 18 and 19, auxiliary circuits of which are made on diodes 20-22, resistors 23-27 and capacitor 28. The output of block 3 is formed by the connection point of the anode of diode 21 and emitter of transistor 19 and is connected to the input of electronic key 4, which is assembled on transistor 29 resistors 30.31 and capacitor 32. the output of the key 4 is the collector of the transistor 29, in series with which the coil 33 of the electromagnetic key 6 is turned on. A diode 34 is connected in parallel with the coil 33. Block 5 is connected to a power supply 2 and assembled on transistors 35 37, and their auxiliary circuits are made on diode 38, resistors 39 - 44 and capacitor 45.

The device operates as follows.

After closing the switch 9, the mains voltage is applied to the LL, in the positive half-cycle on the anode of the diode 12 when the voltage reaches the breakdown level of the zener diode 13 (which is selected so that it does not break through in the LL burning mode, but is less than the peak value of the mains voltage) along the diode 12 circuit - zener diode 13 - resistor 14 - diode 16 and capacitor 17 passes a current pulse charging the latter to the stabilization voltage of the zener diode 15. The full charge time of the capacitor 17 is mainly due to its capacity and resistance 14. Upon reaching the voltage on the capacitor 17 it turn on threshold level of the last block 3 transistors (18 and 19) abruptly change from the cutoff mode to the saturation mode. The response threshold of block 3 is determined by the voltage divider 24.26 and is selected so that it is less than the stabilization voltage of the zener diode 15, but ensures that the electromagnetic switch 6 is turned on. After the threshold block 3 is turned on, the voltage drop across the series-connected diodes 21.22 is applied to the base of the electronic transistor 29 key 4. The transistor 29 opens, energizing the winding 33 of the electromagnetic key 6, its contacts 11 are closed, and the starting current passes through the electrodes LL 7. From this point in time, the voltage control unit 1 is shunted by the closed contacts 11 and the storage capacitor 17 of the power supply 2 is discharged to the device circuit and the winding 33, keeping the contacts 1-1 in the closed state. The circuit elements are selected so that the capacitor 17 is discharged mainly along the winding circuit 33. When the capacitor 17 is discharged to a predetermined level, the threshold unit 3 turns off, the transistor switch 4 closes, de-energizing the winding of the electromagnetic switch 6, and its contacts 11 open, and the inductance of the ballast inductor 8 and the capacitor 10 form an ignition pulse LL. The turn-off voltage of the threshold unit 3 is selected so that the time during which the capacitor 17 holds the contacts of the electromagnetic switch in the closed state is sufficient for the necessary temperature preparation of the LL electrodes. The hysteresis of the threshold block 3 is determined by the ratio of the resistances of the resistors 25 and 26.

Due to the consideration of increasing the discharge time of the capacitor 17 (increasing the efficiency of using the energy accumulated by the capacitor), the current through the winding 33 during the discharge is maintained at a constant level. The magnitude of the current through the winding is chosen so that it is less than the turn-on current, but more than the turn-off current of the electromagnetic switch 6. This mode of operation is ensured by the fact that the base voltage of the transistor 29, taken from the diodes 21,22, remains almost constant when the threshold block is off

3. The transistor 29 is actually switched on according to the scheme with a common base and in this case is a generator of stable current. The electromagnetic switch 6 is turned on when the threshold block 3 is turned on by the collector current pulse of the transistor 29, which is formed due to the presence of a capacitor 32.

If after opening the contacts 11 LL 7 is ignited, the voltage on it decreases to a value at which the zener diode 13 does not break through ", and therefore, the capacitor 17 is not charged, and the circuit of the device remains off without consuming electricity. If the LL does not ignite, then the operation cycle is repeated, but from the moment of the breakdown of the zener diode 13 in the first operation cycle, the capacitor 45 is continuously charged through the resistor 39, striving for its limiting value, which is determined by the divider 39, 40. The charging current of the capacitor 45 holds the transistor 35 in a saturated state, the latter shunts the resistor 44, and the transistors 36, 37 remain locked while in cutoff mode. By the fourth, fifth cycle, the charge current decreases to a value at which the transistor 35 goes out of saturation, the voltage on its collector returns and the transistors 36, 37 open abruptly, bypassing the output of the voltage control unit 1 and the capacitor 17 of the power supply 2. The voltage on the latter can no longer reach the level of inclusion of the threshold unit 3 and the device stops the ignition attempts of LL 7, the contacts 11 remain open. The capacitor 45 is discharged to a level determined by the voltage on the capacitor 17, which remains almost constant while the switch 9 is closed. After opening the switch 9, the capacitor 45 is discharged to zero and the device is again ready for operation.

Claims (2)

Claim 1. A device for igniting a fluorescent lamp with heated electrodes, comprising a ballast choke connected between one of the terminals for connecting the AC power source and one of the terminals for connecting the first lamp electrode, the first capacitor connected between the other terminal for connecting the first lamp electrode and one from the terminals for connecting the second electrode of the lamp, another terminal for connecting the second electrode of the lamp is connected to another terminal for connecting the AC power source ka, electronic switch, electromagnetic relay, the make contact of which is connected parallel to the first capacitor, and its winding is connected to one of the power terminals of the electronic switch by one of the terminals, voltage control unit made in the form of the first diode, connected in series to the second diode, zener diode and divider voltage, the middle terminal of which is connected to one of the terminals of the first diode, the second capacitor is connected between the other terminal of the first diode and the free terminal of the voltage divider of the voltage control unit This is characterized by the fact that, in order to save energy, a threshold block has been introduced, made in the form of two transistors of different conductivity types, two resistors, a voltage divider, two diodes, a circuit of third-series diodes and a third resistor, a capacitor connected in series, while the combined terminals of the third resistor and the third diode are connected by an emitter to a first transistor, the collector of which through the first resistor is connected to the base of the second transistor, and the base to the middle terminal of the voltage divider, one of the terminals the capacitor and through the second resistor - with the collector of the second transistor of the threshold block, the emitter of the second transistor through the first and second series-connected diodes, one of the terminal pins of the voltage divider, the free output of the third resistor of the threshold block, the second power output of the electronic key, the specified free output of the voltage divider of the block voltage control connected to one of the terminals for connecting the second electrode of the lamp, the free terminal of the third diode, the other extreme terminal of the voltage divider, the other you one capacitor of the threshold block and another terminal of the coil of the electromagnetic relay are connected to the combined terminals of the first diode of the voltage control unit and the second capacitor, the emitter of the second transistor of the threshold block is connected to the control terminal of the electronic key, the free terminal of the second diode of the voltage control unit is connected to another terminal for connecting the first electrode . 2. The device according to claim 1, with the fact that it is equipped with a protection unit containing three transistors, six resistors, a capacitor and a diode, while the first resistor, capacitor and diode are connected in series, the second the resistor is connected parallel to the capacitor and the diode to the combined terminals of the capacitor and the diode connected to the base of the first transistor, the collector of which is connected to one of the terminals of the third resistor, the base of the second transistor and the collector of the third transistor are combined and connected through the fourth resistor to the emitter the second transistor and one of the terminals of the fifth resistor, the collector of the second transistor is connected to the base of the third transistor and to one of the terminals of the sixth resistor, the free terminal of the first and third resistors, the other terminal of the fifth resistor are combined and connected to the first terminal of the protection unit, the free terminal of the diode, the emitter of the first transistor, the other terminal of the sixth resistor, the emitter of the third transistor are combined and connected to the second terminal of the protection unit, and the second and third transistors are made of different types of conductivity, p The first terminal of the protection unit is connected to the combined terminals of the first diode of the voltage control unit and the second capacitor, and the second terminal is connected to one of the terminals for connecting the second electrode of the lamp.