RU183309U1 - Ermakov LED rectifier bridge - Google Patents

Abstract

The proposed utility model relates to the field of lighting. The technical result is the reduction of electricity losses. The technical result is achieved due to the fact that the LED rectifier bridge contains a stabilized voltage source 1, a capacitor 2, the first 3 and second 4 variable resistors, the first 5 and second 6 groups of parallel connected LED chains, the rectifier 7, which is made on the LEDs 8-11, moreover, the first group 5 contains parallel-connected LED circuits 12-13 of n LEDs, the second group 6 contains parallel-connected LED circuits 14-15 of two LEDs. 1 ill.

Description

The proposed utility model relates to the field of lighting.

The prior art reflects the LED light source and the lamp containing the LED light source [1], which contains the first and second rectifiers, the first and second LED circuits, the first and second current-limiting resistors, a capacitor.

The disadvantage of the prototype is the significant loss of electricity on current-limiting resistors, as well as the first and second rectifiers.

The technical problem solved by the utility model is the reduction of electricity losses.

The specified technical problem is solved due to the fact that the stabilized voltage source and the first and second variable resistors are additionally introduced into the LED light source and the lamp containing the LED light source containing the rectifier and LED chains of series-connected LEDs, and the rectifier is made on LEDs, moreover, the terminals of the alternating voltage of the rectifier are connected to the mains, and the output “+” of the rectifier through the first group of parallel-connected LEDs of n chains of n LEDs is connected to the “+” input of the stabilized voltage source, the “-” input of which is combined with the “-” terminal of the rectifier and, through the parallel connected first variable resistor and capacitor, is connected to the “+” input of the stabilized voltage source, to the outputs of which a second variable resistor and a second group of parallel-connected LED chains of two LEDs connected in parallel.

Significant differences of the proposed LED rectifier bridge are the introduction of additional elements (stabilized voltage source, the first and second variable resistors, and the rectifier is made on LEDs), as well as the use of new connections between the elements of the LED bridge. These significant differences ensure the achievement of a positive effect - a reduction in energy losses.

The LED bridge circuit is shown in FIG. one.

The LED bridge circuit contains a stabilized voltage source 1, a capacitor 2, the first 3 and second 4 variable resistors, the first 5 and second 6 groups of parallel-connected LED circuits, a rectifier 7, which is made on LEDs 8-11, and the alternating voltage terminals of the rectifier 7 are connected to of the supply network, and the “+” terminal of the rectifier 7 through the first group 5 of parallel-connected LED circuits 12-13 of n LEDs is connected to the “+” input of the stabilized voltage source 1, the “-” input of which is combined with the pin the rectifier 7 is connected to the “-” by the first variable resistor 3 and the capacitor 2 connected in parallel to the “+” input of the stabilized voltage source 1, the outputs of which are connected to the second variable resistor 4 and the second group 6 of parallel-connected LED circuits 14-15 two LEDs.

Consider the work of the LED bridge.

Depicted in FIG. 1 circuit is designed to create fixtures of high power. A feature of the circuit is the possibility of its use with a changing voltage of the supply network U ₁ . The voltage difference U ₂ -U ₃ sets the rated current through the LED circuit 12-13 of n LEDs. To maintain constant current through the LED chains 14-15 of two LEDs when the supply voltage changes, a stabilized voltage source U _{4 is} introduced into the circuit, which is set by the second variable resistor 4. By changing the resistance of the first variable resistor 3, the same brightness of the LEDs of the first 5 and second 6 groups of parallel-connected LED chains. The input voltage U _{3 of the} source 1 has a wide permissible range of variation.

The advantage of the proposed LED bridge in comparison with the prototype is to reduce power consumption by eliminating current-limiting resistors from the bridge circuit.

Sources of information taken into account when drawing up the description of the application:

1. Pat. 2528383 RF, IPC Н05В 33/08, Н05В 37/02, 2009, (prototype).

Claims (1)

An LED rectifier bridge containing a rectifier and LED chains of series-connected LEDs, a capacitor, characterized in that it also contains a stabilized voltage source and first and second variable resistors, and the rectifier is made with LEDs, and the rectifier's AC voltage leads are connected to the mains, and the output “+” of the rectifier through the first group of parallel-connected LED chains of n LEDs is connected to the input “+” of the stabilized source voltage, the input “-” of which is combined with the output “-” of the rectifier and through a parallel connected first variable resistor and capacitor is connected to the input “+” of the stabilized voltage source, to the outputs of which are connected a parallel connected second variable resistor and a second group of parallel connected LED circuits of two LEDs.

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