KR20150003591U - Led lamp - Google Patents

Abstract

The lamp according to the present invention includes a full-wave rectifier for converting an alternating current (AC) into a direct current (DC); A surge protection device (SPD) electrically connected to the full-wave rectifier for protecting the lamp from voltage spikes; A plurality of series-connected light emitting diodes (LEDs) electrically connected to the SPD; A microprocessor electrically coupled to the SPD; A plurality of series-connected MOSFETs (metal-oxide-semiconductor field-effect transistors) electrically connected to the microprocessor; a starter circuit, the MOSFET starter circuit configured to switch electronic signals; Respectively, a plurality of resistors that electrically interconnect the LEDs and the MOSFET starting circuit. Wherein the microprocessor is responsive to a normal DC supplied from the SPD to generate a pulse width modulation (PWM) signal to activate the MOSFET starting circuit, to initiate operation of the LED through each of the resistors, In response to an abnormal DC that includes a voltage spike, the MOSFET startup circuit is deactivated, causing DC to flow to the resistor without supplying DC to the LED through each resistor.

Description

Light Emitting Diode Lamp {LED LAMP}

The present invention relates to a lamp, and more particularly, to a light emitting diode (LED) lamp having improved starting characteristics.

LEDs are famous for their long life and impact resistance. Also, LEDs consume far less power than fluorescent lights. Thus, LED lighting devices are gaining popularity around the world. Recently, LEDs have been used in outdoor lighting devices as light sources.

The starting of the fluorescent lamp may be selected from the group consisting of preheating, instant start, rapid start, quick-start, semi-resonant start, and programmed start start).

However, LED lighting having the feature of preheating fluorescent lamps has not been disclosed so far as the inventor knows. Accordingly, the continuous improvement in the development of LED lighting having the above characteristics is continuously sought.

Therefore, the object of the present invention is to provide an LED lamp for solving the above problem. The specific configuration and operation of the lamp will be described below.

In order to achieve the above object, another lamp according to the present invention includes: a full-wave rectifier for converting an alternating current (AC) to a direct current (DC); A surge protection device (SPD) electrically connected to the full-wave rectifier for protecting the lamp from voltage spikes; A plurality of series-connected light emitting diodes (LEDs) electrically connected to the SPD; A microprocessor electrically coupled to the SPD; A plurality of series-connected MOSFETs (metal-oxide-semiconductor field-effect transistors) electrically connected to the microprocessor; a starter circuit, the MOSFET starter circuit configured to switch electronic signals; And a plurality of resistors electrically interconnecting the LEDs and the MOSFET starting circuit. Wherein the microprocessor is responsive to a normal DC supplied from the SPD to generate a pulse width modulation (PWM) signal to activate the MOSFET starting circuit, to initiate operation of the LED through each of the resistors, In response to an abnormal DC that includes a voltage spike, the MOSFET startup circuit is deactivated, causing DC to flow to the resistor without supplying DC to the LED through each resistor.

These and other objects, features, and advantages of the present invention will become apparent from the following detailed description, taken in conjunction with the accompanying drawings.

In a lamp according to the present invention, in an LED lighting having a feature of preheating a fluorescent lamp, when an abnormal DC including a voltage spike is supplied, the MOSFET start circuit is deactivated, and DC is not supplied to the LED through each resistor, So that the LED lamp can be protected as a relatively simple and economical circuit quickly and effectively, thereby improving the starting characteristic of the LED.

1 is a block diagram of an LED lamp according to the present invention.
2 is a circuit diagram of an LED lamp.
3 is a perspective view of an LED lamp.
Figure 4 is an exploded view of the LED lamp shown in Figure 3 with the LED removed.

Referring to Figures 1 to 4, an LED lamp 100 according to the present invention is shown. The LED lamp 100 has the same shape as a fluorescent lamp. That is, the present invention is embodied in conventional fluorescent lamps (e.g., T5, T8, T9, or PL lamps) without changing the shape of the fluorescent lamp and external components (e.g., pins). The LED lamp 100 includes the following components as will be described in detail below.

The full-wave rectifier 2 is composed of two half-wave rectifiers 2 provided at both ends, and converts an alternating current (AC) to a direct current (DC). A surge protection device (SPD) 1 is electrically connected to one half-wave rectifier 2 to protect the LED lamp 100 from voltage spikes. A plurality of serially connected LEDs 6 (only two shown) are electrically connected to the SPD 1 and the other half-wave rectifier 2. The microprocessor 3 is connected to the SPD 1. Two MOSFET (metal-oxide-semiconductor field effect transistor) starting circuits 4 connected in series are electrically connected to the microprocessor 3. Two high-resistance resistors 5 are provided, and each high-resistance resistor 5 is electrically connected to the LED 6 and the MOSFET start-up circuit 4. In addition, the electric circuit between the SPD 1 and one LED 6 is grounded, and the electric circuit between the other LED 6 and the other half-wave rectifier 2 is also grounded.

The operation of the present invention will be described in detail. In response to the normal DC voltage supplied from the SPD 1, the microprocessor 3 generates a PWM (pulse width modulation) signal to activate the MOSFET starting circuit 4, as in the case of pre-heating of a fluorescent lamp. A MOSFET starting circuit 4 having a function of switching an electronic signal starts operation of each LED 10 through each high-resistance resistor 5.

Conversely, if an abnormal DC voltage (e.g., voltage spike) is supplied from the SPD 1, the microprocessor 3 deactivates the MOSFET starting circuit 4 to cause the current to flow through the high- (5) without being supplied to the resistor (6). As a result, the LED 6 is protected.

While the invention has been described in terms of a preferred embodiment, those skilled in the art will recognize that the invention can be practiced with modification within the spirit and scope of the appended claims.

1 surge protection device, 2 rectifier, 3 microprocessor, 4 MOSFET starting circuit, 5 resistors, 6 LED, 100 LED lamp

Claims (1)

A full-wave rectifier for converting an alternating current (AC) to a direct current (DC);
A surge protection device (SPD) electrically connected to the full-wave rectifier for protecting the lamp from voltage spikes;
A plurality of series-connected light emitting diodes (LEDs) electrically connected to the SPD;
A microprocessor electrically coupled to the SPD;
A plurality of series-connected metal-oxide-semiconductor field-effect transistor (MOSFET) starting circuits electrically connected to the microprocessor, the MOSFET starting circuit configured to switch electronic signals;
A plurality of resistors electrically interconnecting the LED and MOSFET starting circuit,
In response to a normal DC supplied from the SPD, the microprocessor generates a pulse width modulation (PWM) signal to activate the MOSFET start circuit and initiates operation of the LED through each of the resistors,
In response to an abnormal DC with a voltage spike supplied by the SPD, the microprocessor deactivates the MOSFET starter circuit and causes DC to flow to the resistor without supplying DC to the LED through each resistor.

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