RU113105U1 - LED SOURCE OF LIGHT (OPTIONS) - Google Patents

Abstract

 1. An LED light source comprising a step-down voltage converter, which is connected to at least one LED via a rectifier diode bridge, and a capacitive filter is connected in parallel with the rectifier diode bridge and the LED, the step-down voltage converter is made of a series of capacitors connected in series, characterized in that the rectifier diode bridge is connected to break the chain of series-connected capacitors of the voltage Converter. ! 2. The LED light source according to claim 1, characterized in that a quenching resistor with a nominal resistance of several hundred ohms to units of megohms is connected to the capacitive filter parallel to the capacitor. ! 3. The LED light source according to claim 1, characterized in that at the output of the rectifier bridge in front of the capacitive filter, a thermistor with a negative resistance coefficient with a nominal resistance of several tens of ohms to hundreds of ohms is sequentially connected to the circuit. ! 4. The LED light source according to claim 1, characterized in that at the input of the rectifier bridge, a discharge resistor with a nominal resistance of several hundred ohms to units of megohms is connected in parallel. ! 5. The LED light source according to claim 1, characterized in that in parallel with each capacitor of the step-down voltage converter, a discharge resistor with a nominal resistance of several hundred Ohms to units of MΩ is connected. ! 6. The LED light source according to claim 1, characterized in that at the input of the step-down voltage converter, made of a chain of series-connected capacitors, a bit is connected in parallel

Description

The utility model relates to outdoor and indoor lighting devices.

Known LED illuminator according to the first embodiment of its design includes a step-down voltage converter, which is connected to at least one LED through a rectifier diode bridge and an energy supply control element, and a capacitive filter is connected in parallel with the rectifier diode bridge and LED, while lowering the voltage Converter is made of parallel connected at least one shunt resistor and at least one capacitor, and at least one current-limiting resistor (patent RU No. 2329619, IPC Н05В 37/02, published 2008/07/20).

The disadvantage of this device is significant energy consumption, part of which is lost on the shunt resistor.

A known light source is an LED light source containing a rectifier diode bridge, to the output of which LEDs are connected, in series with which a current regulator containing a voltage regulator is connected, the output of which is connected to the first output of the resistor, the second output of which is the output of the current stabilizer and connected to the control input of the voltage stabilizer, characterized in that the LEDs are interconnected in series, and the number of LEDs N is selected from the range

(U _pit- U _{st min} ) / U _LED >N> (U _pit- U _{st max} ) / U _LED ,

where U _pit is the peak value of the supply voltage;

U _{article max} - maximum operating voltage of the current stabilizer;

U _{article min} - the minimum operating voltage of the current stabilizer;

U _LED - operating voltage of each of the LEDs (patent RU 99 593 IPC F21S 13/00 Published 2010/11/20).

The disadvantage of this LED light source is the complexity of the current and voltage stabilization circuitry.

The prototype of this utility model is a known LED light source comprising a step-down voltage converter, which is connected through a rectifier diode bridge to at least one LED, and a capacitive filter is connected in parallel with the rectifier diode bridge and the LED, characterized in that the step-down voltage converter is made from a chain of series-connected capacitors, at least one of which, being a power take-off capacitor, is connected to rectifiers Yelnia diode bridge (patent RU 79741 MPK N05V 37/02, published 10.01.2009, Byul.№1).

The disadvantage of the prototype is the unstable operation of the LED light source in transient conditions, especially during moments of short-term multiple repeated on-off.

The problem to which the proposed utility model is aimed is to increase the stability and reliability of transient operation of an LED light source containing a step-down voltage converter, which is connected to at least one LED through a rectifier diode bridge and in parallel with the rectifier diode bridge and LED it includes a capacitive filter, the step-down voltage converter is made of a series of series-connected capacitors, while the rectifier iodine bridge the gap in the chain is connected serially connected capacitors of the voltage converter; in addition, a quenching resistor with a nominal resistance of several hundred ohms to units of Mom is connected in parallel with the capacitor filter; in addition, at the outlet of the rectifier bridge in front of the capacitive filter, a thermistor with a negative resistance coefficient with a nominal resistance of several tens of Ohms to hundreds of Ohms is sequentially connected to the circuit; in addition, a discharge resistor with a nominal resistance of several hundred ohms to units of Mom is connected parallel to the input of the rectifier bridge; in addition, a discharge resistor with a nominal resistance of several hundred ohms to units of Mom is connected in parallel to each capacitor of the step-down voltage converter; in addition, to the input of the step-down voltage converter, made of a series of series-connected capacitors, a discharge resistor with a nominal resistance of several hundred Ohms to units of Mom is connected in parallel; in addition to the input of the step-down voltage converter, made of a series of series-connected capacitors, a voltage limiter with a voltage limiting threshold above the rated voltage of the supply network is connected in parallel; in addition, a current-limiting resistor with a nominal resistance of several ohms to hundreds of ohms is connected in series to each branch of the circuit to the input of a step-down voltage converter made of a series of series-connected capacitors.

The essence of the proposed utility model is illustrated in the figure, where figure 1 shows the electrical diagram of the proposed LED light source.

The LED light source contains a step-down voltage converter (a) electrically interconnected, a rectifier diode bridge (b), a filter (c), and LEDs (d).

LED light source operates as follows. When voltage is supplied from the supply network to the input of the step-down voltage converter, the capacitors of converter 5 begin to charge, while the charge current is limited by current-limiting resistors 1. Voltage limiter 2 limits the amplitude of the voltage jumps in the supply network to no more than the permissible value (usually from 1.2 to 1, 5 above the rated value of the mains voltage). The reduced voltage from the voltage converter is supplied to the input of the rectifier diode bridge (b), and the direct current from the output of the rectifier through the thermistor 8 energizes the LEDs 11. Since in the cold state the resistance of the thermistor 8 is hundreds of ohms, and as it heats it decreases to units of ohms , then the supply voltage of the LEDs gradually increases, the LEDs flash and gradually kindle, illuminate the surrounding space. Through the discharge resistors 3, 4, 6, the charge accumulated in the capacitors of the circuit is removed after turning off the LED light source. The capacitor 9 provides smoothing of the ripples of the rectified current, and the quenching resistor 10 provides an effective discharge of the charge of the capacitor 9 after turning off the circuit, which ensures a sharp extinction of the LEDs 11.

As a result of the application of the indicated circuit solutions, the LED light source becomes resistant to sharp voltage fluctuations in the supply network and the reliability of its operation in the process of repeatedly switching on and off is increased.

Claims (8)

1. An LED light source comprising a step-down voltage converter, which is connected to at least one LED through a rectifier diode bridge, and a capacitive filter is connected in parallel with the rectifier diode bridge and the LED, the step-down voltage converter is made of a series of capacitors connected in series, characterized in that the rectifying diode bridge is connected to break the chain of series-connected capacitors of the voltage Converter. 2. The LED light source according to claim 1, characterized in that a damping resistor with a nominal resistance of several hundred ohms to units of megohms is connected to the capacitive filter parallel to the capacitor. 3. The LED light source according to claim 1, characterized in that at the output of the rectifier bridge in front of the capacitive filter, a thermistor with a negative resistance coefficient with a nominal resistance of several tens of ohms to hundreds of ohms is sequentially connected to the circuit. 4. The LED light source according to claim 1, characterized in that at the input of the rectifier bridge, a discharge resistor with a nominal resistance of several hundred ohms to units of megohms is connected in parallel. 5. The LED light source according to claim 1, characterized in that in parallel with each capacitor of the step-down voltage converter, a discharge resistor with a nominal resistance of several hundred ohms to units of megohms is connected. 6. The LED light source according to claim 1, characterized in that at the input of the step-down voltage converter made of a series of series-connected capacitors, a discharge resistor with a nominal resistance of several hundred ohms to units of megohms is connected in parallel. 7. The LED light source according to claim 1, characterized in that at the input of the step-down voltage converter made of a series of series-connected capacitors, a voltage limiter with a voltage limiting threshold above the rated voltage of the supply network is connected in parallel. 8. The LED light source according to claim 1, characterized in that at the input of the step-down voltage converter made of a series of capacitors connected in series, a current-limiting resistor with a nominal resistance of several ohms to hundreds of Ohms is connected in series to each branch of the capacitor circuit.