UA54069A - Lighting device - Google Patents

Abstract

The proposed lighting device contains an alternate-current power supply unit, three capacitors, a luminescence lamp, a resistor, and a diode bridge circuit. The first terminal of the first capacitor is connected to the first terminal of the luminescence lamp. The first input of the bridge circuit is connected to the second terminal of the first capacitor, the second input is connected to the second terminal of the alternate-current power supply unit, and the first output is connected to the second terminal of the luminescence lamp. The first terminals of the second and third capacitors are connected to one of the outputs of the bridge circuit, and the second terminals are connected accordingly to the first and second outputs of the bridge circuit. Additionally, the proposed device contains a stabilitron and a switch. The first terminal of the stabilitron is connected to the second output of the bridge circuit, and the second terminal is connected to the second output of the resistor. The switch is connected in parallel to the second capacitor. The lighting device can contain several capacitors instead of the first capacitor and accordingly several switches. In this case, the first terminals of the switches are connected to the corresponding second terminals of the capacitors, and the second terminals are connected together and to the first input of the bridge circuit. The first terminals of the capacitors are connected together and to the first terminal of the alternate-current power supply unit.

Description

Description of the invention

The invention relates to lighting devices and can be used in fluorescent lamps with 2 starterless rectified current power supply devices, which ensures high burning quality.

A known lighting device, selected as a prototype, containing an alternating current source and a first capacitor (ballast), connected to each other by the first terminals, a fluorescent lamp and an active resistance, connected to each other by the first terminals, a diode bridge circuit connected to the first input, to the second terminal of the first capacitor and the second input to the second terminal of the alternating current source, and the outputs, respectively, to the second terminal of the fluorescent lamp and the second terminal of the active resistance, the second and third capacitors, the first terminals are connected to one input of the bridge circuit, and the second terminals, respectively , to the first and second outputs of the bridge circuit. (Patent of Ukraine Mo38699A).

The disadvantages of the prototype include the short life of the fluorescent lamp, unreliable ignition in conditions of low temperatures and outdated fluorescent lamps, the lack of control of the power of the light 12 stream. The positive qualities of the prototype include the stability of combustion.

The purpose of the invention is to: a) increase the lifetime of the fluorescent lamp; b) improvement of ignition reliability; c) control of light flux power.

The problems are solved by the fact that in the lighting device, which contains an alternating current source and the first capacitor (ballast), the fluorescent lamp and resistance are connected to each other by the first terminals, the diode bridge circuit is connected to the first input to the second output of the first capacitor and the second input to the second output of the alternating current source, and the first output to the second output of the fluorescent lamp, the second and third capacitors, the first outputs are connected to one input 29 of the bridge circuit, and the second outputs, respectively, to the first and second of the outputs of the bridge circuit, according to the invention, a zener diode connected by the first terminal to the second terminal of the bridge circuit, and the second terminal to the second terminal of the resistor, is introduced; a switch connected in parallel to the second capacitor is introduced; the first capacitor (ballast) contains two or more capacitors and, accordingly, two or more switches, the first terminals of the switches are connected, respectively, to the second terminals of the capacitors, and the second terminals of the Me switches. are connected to each other and connected to the first input of the bridge circuit, the first terminals of the capacitors are connected to each other and connected to the first terminal of the alternating current source.

The introduction of a zener diode connected by the first terminal to the second terminal of the bridge circuit, and by the second terminal to the second terminal of the resistor, extends the life of the fluorescent lamp. "AND

The introduction of a switch connected in parallel to the second capacitor increases the reliability of ignition,

What is necessary in conditions of low temperatures and outdated fluorescent lamps. at

Execution of the first (ballast) capacitor in the version of two or more capacitors and, accordingly, two or more switches, where the first terminals of the switches are connected, respectively, to the second terminals of the capacitors, and the second terminals of the switches are combined with each other and connected to the first input of the bridge circuit , the first outputs of the capacitors are connected to each other and connected to the first output of the alternating current source provides Z 70 control of the power of the light flux of the device. Figure 1 shows the basic electrical diagram of the first version of the proposed lighting device.

The lighting device contains an alternating current source 1 and the first capacitor (ballast) 2, the first terminals are connected to each other, a fluorescent lamp C and resistance 4, the first terminals are connected to each other, a diode bridge circuit from diodes 5, b, 7, 8 , connected by the first input to the second output of the first capacitor 2 and by the second input to the second output of the alternating current source 1, and by the first output to the second output "" of the fluorescent lamp 3. The second 9 and third 10 capacitors are connected by the first outputs to one input of the bridge circuit from diodes 5, b, 7, 8, and the second outputs, respectively, to the first and second outputs of the same bridge circuit. What is new in the device is that a zener diode 11 is introduced into it, connected by the first terminal to b 20 of the second terminal of the bridge circuit, and by the second terminal to the second terminal of the resistor. The device works like this.

When an alternating voltage is applied to the outputs of the alternating current source 1, this voltage through the first capacitor 2 is supplied to the inputs of the diode bridge circuit from diodes 5, 6, 7, 8. While the fluorescent lamp C is not lit, the second capacitor 9 and the third capacitor 10 are charged to the amplitude values of the alternating voltage at the output of the alternating current source 1. This happens as follows. During a positive half-cycle of the voltage, the current flows through 29 such a circuit: alternating current source 1, first capacitor 2, second capacitor 9, diode 7 of the bridge circuit, v. source of alternating current 1. At a negative half-cycle of the voltage, the current flows in the following circuit: source of alternating current 1, first capacitor 2, third capacitor 10, diode 8 of the bridge circuit, source of alternating current 1.

The doubled amplitude voltage from the outputs of the bridge circuit through the zener diode 11 and resistance 4 is applied to the inputs of the fluorescent lamp C and lights it up. After ignition, the voltage at the output of the bridge circuit and fluorescent lamp 60 decreases.

If, during transient processes, the current through zener diode 11 becomes less than its minimum stabilization current, the resistance of the zener diode increases several times, which reduces the current of transient processes. This, in turn, extends the life of the fluorescent lamp, which is confirmed by the work of experimental samples of lighting devices. because Figure 2 shows the basic electrical diagram of the second version of the proposed lighting device.

Compared to the previous device, what is new is that it has a switch 12 connected in parallel to the second capacitor 9.

The device works like this.

When an alternating voltage is applied to the outputs of the alternating current source 1, a doubled amplitude voltage is applied to the outputs of the fluorescent lamp Z and lights it up.

If the ignition did not occur, the contacts of the switch 12 are closed. In this case, the voltage on the second capacitor B decreases to zero, and the voltage from the third 7/0 capacitor 10 is applied to the fluorescent lamp C through the zener diode 11 and resistance 4. If the contacts of the switch 12 are closed, then with a positive half-cycle of the voltage, the current flows in the following circuit: alternating current source 1, first capacitor 2, closed switch contacts 12, open diode 7 of the bridge circuit, alternating current source 1. At the same time, diodes 6, 8 of the bridge circuit are closed by the voltage on the third capacitor 10 , and the first capacitor 2 is charged to the voltage amplitude value. With a negative half-cycle of the voltage, the current flows in the following circuit: alternating current source 1, first capacitor 2, third capacitor 10, diode 8 of the bridge circuit, alternating current source 1. At the same time, diodes b, 7 of the bridge circuit are closed, and the third capacitor 10 is supplied with the sum the voltage of the alternating current source 1 and the first capacitor 2. The same voltage from the capacitor 10 through the zener diode 11, the resistance 4 and the closed contacts of the switch 12 is supplied to the fluorescent lamp 3.

Thus, when the contacts of the switch 12 are closed, the voltage on the fluorescent lamp first decreases

Twice, and then it is restored with pulses of doubled amplitude voltage. This reliably lights the fluorescent lamp 3, but the burning is pulsating.

When the contacts of the switch 12 are opened, a current rectified by the bridge circuit flows through the fluorescent lamp Z, zener diode 11 and resistance 4, which ensures stable burning.

Figure C shows the basic electrical diagram of the third version of the lighting device.

Compared to the previous device, what is new is that the ballast capacitor 2 is replaced by two capacitors 13, 14 and, respectively, two switches 15, 16, the first terminals of the switches 15, 16 are connected, respectively, to the second terminals of the capacitors 13, 14, and the second terminals of the switches 15, 16 are connected to each other and connected to the first input of the bridge circuit from diodes 5, b, 7, 8, the first terminals of the capacitors 13, 14 are connected to each other and connected to the first terminal of the alternating current source 1. Gee! z The device works as follows.

In the initial state, the contacts of all switches 12, 15, 16 will be opened. When closing the contacts of the switch 15 and ise), the voltage of the alternating current source 1 through the capacitor 13, the contacts of the switch 15 is supplied to the inputs of the bridge (in the circuit and the device works by analogy with the first circuit.

The starting and operating current of the device in this case is mainly determined by the capacity of the capacitor 13. -

When the ratio of the capacities of capacitors 13 and 14 is 1 to 2, the starting and operating current is reduced by three times in comparison with the first version of the device. When the contacts of the switch 16 are closed, the luminous flux of the device increases to the maximum. The average luminous flux will be when the contacts of the switch 15 are open and the contacts of the switch 16 are closed.

Thus, the third variant of the lighting device allows you to discretely control the power of the light flow of the device. in c with"

Claims (2)

The formula of the invention 1. A lighting device containing an alternating current source and a first capacitor, the first terminals of which are connected to each other, a fluorescent lamp and a resistance, the first terminals of which are connected to each other, a diode bridge circuit, connected by the first input to the second terminal of the first capacitor and the second input - to the second output of the alternating current source, and the first output - to the second output of the fluorescent lamp, the second and third capacitors are connected by the first outputs to one input of the bridge circuit, and by the second outputs, respectively, to the first and second outputs of the bridge circuit, which differs in that a zener diode is inserted into it, (22) connected by the first terminal to the second terminal of the bridge circuit, and by the second terminal to the second terminal of the resistor. Ge; 2. The lighting device according to claim 1, which is characterized by the fact that a switch connected in parallel to the second capacitor is inserted into it. C. The lighting device according to claim 1 or 2, characterized in that the first capacitor contains two or more capacitors and, respectively, two or more switches, the first terminals of the switches are connected, respectively, to the second terminals of the capacitors, and the second terminals of the switches are combined among themselves and connected to the first input P» of the bridge circuit, the first terminals of the capacitors are connected to each other and connected to the first terminal of the alternating current source. 60 b5