RU101867U1 - LED LAMP - Google Patents

Abstract

 1. LED lamp containing a base in the form of a printed circuit board with conductive pads, a secondary power source in the form of a protective device and a half-wave rectifier with a storage capacitor connected to its output, a temperature limiter of the operating current of the LEDs containing the first and second n-pn transistors , as well as the first and second resistors and single LEDs, connected by their contacts to the conductive pads of the base in a circuit connected, taking into account its polarity with one pole to positively to the output terminal of the power supply, and to the other through the collector-emitter junction of the second transistor and the second resistor of the temperature limiter of the operating current, connected to the negative terminal of the power supply, the base of the second transistor is connected to the collector of the first transistor and through the first resistor to the positive terminal of the power supply, emitter the first transistor is connected to the negative terminal of the power source, and its base is connected to the emitter of the second transistor, and the housing of the first transistor and a single light diodes are connected by a single heat sink, interacting with the environment, with the value of the second resistor is selected from the expression: ! where R2 is the resistance value of the second resistor; ! Ub-eVT1 is the base-emitter junction voltage of the first transistor; ! Irab - the magnitude of the working current flowing through a single LED, connected by its contacts to the conductive grounds of the base in the circuit. ! 2. The LED lamp according to claim 1, characterized in that in it the protective device is made in the form of a TVS diode or a protective diode or

Description

The utility model relates to lighting devices and can be used in the design of new LED lighting devices used in various fields of science and technology.

A device is known for incorporating a light tube with LEDs into an AC network (1), comprising parallel-consecutive chains of LEDs located on a printed circuit board and installed inside a transparent light tube, as well as an electrical network supplying them with an electronic converter made in the form of a parametric voltage regulator based on a rectifier, an additional ballast thermistor and a zener diode, shunting parallel-sequential chains of LEDs.

A disadvantage of the known switching device is the insufficient reliability of the operation of a light tube with LEDs connected to it, since the working current flowing through the LEDs is maintained at a predetermined level by a parametric stabilizer and is limited by a ballast thermistor and does not take into account the possible significant influence of other factors on the temperature regime of the LEDs,

An LED light source (2) is also known, comprising a housing with a built-in semiconductor emitter and a current generator. In order to eliminate the possibility of sudden changes in the current through the emitter, especially when the output voltage of the power source is increased, as well as to achieve temperature stabilization of the mode and low pass-through voltage of the power circuit, its current generator is made in the form of a set of elements with their original parallel-series connection relative to the input terminals, providing current and temperature stabilization and low through voltage. A feature of the generator circuit is that the positive terminal of the light source is connected to the emitter of the first pnp transistor, the resistor is connected parallel to the emitter-collector junction, while the base of the first transistor is connected through the resistor to the collector of the second npn transistor, and the collector of the first transistor is connected to the base through the resistor the second npn transistor and the collector of the third npn transistor, the collector of the first transistor through a resistor is connected to the base of the third transistor and the base of the fourth npn trans ora, a semiconductor emitter positive terminal connected to the collector of the first transistor and the negative terminal to the collector and the emitter of the fourth transistor and to the conclusion of the current feedback resistor. The second output of this resistor is connected to the emitters of the second and third transistors, and the negative terminal of the light source, and a capacitor is connected between the negative terminal of the light source and the base of the second transistor.

A disadvantage of the known LED light source is the insufficient reliability of its operation, since it is designed to operate in a narrow range of operating temperatures of the LEDs corresponding to a given value of the stable current flowing through the LEDs, provided that the influence of other factors increasing the temperature of the LEDs should be negligible.

The prototype of the claimed utility model is a well-known LED lamp (3), containing a printed circuit board with LEDs, a transparent diffuser, a radiator, a hollow cylindrical body, a housing flange, an electronic unit containing a control system with a control element, a voltage converter and current stabilizing elements, a contact system connecting an external voltage source with a printed circuit board with LEDs through an electronic unit. On the printed circuit board, next to the LEDs, there is a temperature sensor connected to the control element of the control system.

The known LED lamp (3), like its analogues, has insufficient reliability, since the indicated technical result from its use is achievable within a narrow range of operating temperatures of the LEDs corresponding to a given value of the stable current flowing through the LEDs, while the possible influence of other factors capable of increasing the temperature of LEDs, regardless of whether the operating current flows through the LEDs or not.

The technical result of the claimed LED lamp is to eliminate the disadvantages of both analogues and prototype. Namely, increasing the reliability of the LED lamp in conditions under which the temperature of the LED housing substantially depends on the magnitude of the working current flowing through them, and on the results of exposure to thermal energy supplied to the LEDs from the environment, including cases when The thermal effect of the environment on the temperature of the LEDs is of primary importance.

To achieve the indicated technical result, an LED lamp is proposed, having a base in the form of a printed circuit board with conductive pads, a secondary power source in the form of a protective device and a half-wave rectifier, with a storage capacitor connected to its output. In addition, it contains a temperature limiter of the operating current of the LEDs having the first and second n-p-n transistors, as well as the first and second resistors and single LEDs connected by their contacts to the conductive grounds of the base in the circuit. A circuit of single LEDs is connected, taking into account its polarity, with one pole to the positive terminal of the power source, and the other through a collector-emitter junction of the second transistor and the second resistor of the temperature limiter of the operating current connected in series to the negative terminal of the power source. The base of the second transistor is connected to the collector of the first transistor and through the first resistor to the positive terminal of the power source. The emitter of the first transistor is connected to the negative terminal of the power source, and its base is connected to the emitter of the second n-p-n transistor, and the cases of the first transistor and single LEDs are connected by a single heat sink interacting with the environment, and the value of the second resistor is selected from the expression:

;

where: R ₂ is the resistance value of the second resistor,

U _b-eVT1 is the base-emitter junction voltage of the first transistor,

I _slave - the magnitude of the working current flowing through single LEDs connected by their contacts to the conductive grounds of the base in the circuit.

In order to further improve the reliability of the LED lamp in it, the protective device can be made in the form of a TVS diode or a protective diode or varistor connected in parallel with the input of two half-period rectifiers, the opening voltage of which does not exceed the maximum permissible voltage value of the industrial network, and the protective device of the secondary source The power supply can be connected to the industrial network through a fuse or a thermal fuse.

The figure shows the electrical diagram of the proposed LED lamp, which shows:

- U _p - standard terminals or base for connecting an LED lamp to an industrial network,

- P _r - fuse,

- TVS diode,

- VD - two half-period rectifier,

- C - storage capacitor,

- R ₁ is the first resistor,

- R ₂ is the second resistor,

- VT ₁ is the first transistor,

- VT ₂ - the second transistor,

- LED ₁ , LED ₂ ... LED _n - circuit in the form of n LEDs connected in series.

Structurally, the proposed LED lamp LEDs LED ₁ , LED ₂ ... LED _n and the first transistor VT ₁ are placed on a common radiator, and the radiator itself interacts freely with the environment, while both the radiator and its free space will have the same temperature, varying in accordance with the change in ambient temperature. Thus, the first transistor VT ₁ , located on the same radiator with LEDs LED ₁ , LED ₂ ... LED _n , will play the role of a temperature sensor that affects the amount of operating current flowing through the LEDs and second transistor VT ₂ and resistor R ₂ . Due to the flow of operating current through the LEDs LED ₁ , LED ₂ ... LED _n , thermal energy will be additionally released in them, contributing to a possible increase in temperature of both LED ₁ , LED ₂ ... LED _n and the radiator with the first transistor VT ₁ . A possible additional temperature increase of the LEDs LED ₁ , LED ₂ ... LED _n and the first transistor VT ₁ will be directly dependent on the change in the operating current flowing through the LEDs LED ₁ , LED ₂ ... LED _{n, the} second transistor VT ₂ and the second resistor R ₂ . As a result, a possible increase in the temperature of the case of the first transistor VT ₁ due to additional thermal energy coming from both increasing ambient temperature and from increasing the operating current through the LEDs LED ₁ , LED ₂ ... LED _{n, the} temperature limiter of the operating current will be inversely proportional to corresponding value operating current flowing through the LEDs LED ₁ , LED ₂ ... LED _n . The level of limitation of the working current flowing through the LEDs LED ₁ , LED ₂ ... LED _n depends on the temperature change of the housing of the first transistor VT ₁ , and its initial value depends on the resistance value of the second resistor R ₂ , determined from the expression:

;

where: R ₂ is the resistance value of the second resistor,

U _b-eVT1 is the base-emitter junction voltage of the first transistor,

I _slave - the magnitude of the working current flowing through single LEDs connected by their contacts to the conductive grounds of the base in the circuit.

Unlike the prototype (3) and analogues (1) and (2) in the proposed LED lamp, the working current flowing through the LEDs LED ₁ , LED ₂ ... LED _{n is} not stabilized and changes in full accordance with the change in both the ambient temperature and and temperature changes of LEDs LED ₁ , LED ₂ ... LED _n due to the working current flowing through them. In this case, the magnitude of the working current flowing through the LEDs LED ₁ , LED ₂ ... LED _n will be limited by the temperature limiter at a level not exceeding the corresponding value of the maximum allowable temperature in its entire range. This limitation is especially relevant in the case when the ambient temperature can increase significantly compared to the initial operating temperature of the LED lamp. Using the temperature limiter of the operating current through the LEDs LED ₁ , LED ₂ ... LED _n . eliminates the likelihood of their work with a temperature regime exceeding the permissible value and, as a consequence, thermal breakdown. Due to this, both the reliability of the LED lamp and its maximum operating life are significantly increased.

Information sources:

1. Patent RU No. 84661, cl. H05B 37/00, published July 10, 2009.

2. Patent RU No. 68184, cl. H01L 33/00, published 10.11.2007.

3. Patent RU No. 80285, cl. H01L 33/00, published 01/27/2009.

Claims (3)

1. LED lamp containing a base in the form of a printed circuit board with conductive pads, a secondary power source in the form of a protective device and a half-wave rectifier with a storage capacitor connected to its output, a temperature limiter of the operating current of the LEDs containing the first and second n-pn transistors , as well as the first and second resistors and single LEDs, connected by their contacts to the conductive pads of the base in a circuit connected, taking into account its polarity with one pole to positively to the output terminal of the power supply, and to the other through the collector-emitter junction of the second transistor and the second resistor of the temperature limiter of the operating current, connected to the negative terminal of the power supply, the base of the second transistor is connected to the collector of the first transistor and through the first resistor to the positive terminal of the power supply, emitter the first transistor is connected to the negative terminal of the power source, and its base is connected to the emitter of the second transistor, and the housing of the first transistor and a single light diodes are connected by a single heat sink interacting with the environment, the value of the second resistor is selected from the expression:

, where R ₂ is the resistance value of the second resistor; U _b-eVT1 is the base-emitter junction voltage of the first transistor; I _slave - the magnitude of the working current flowing through single LEDs connected by their contacts to the conductive grounds of the base in the circuit. 2. The LED lamp according to claim 1, characterized in that the protective device is made in the form of a TVS diode or a protective diode or varistor connected in parallel with the input of a half-wave rectifier, the opening voltage of which does not exceed the maximum allowable voltage value of the industrial network. 3. The LED lamp according to any one of the paragraphs, characterized in that in it the protective device of the secondary power source is connected to the industrial network through a fuse or a thermal fuse.