CN213126534U - Driving power supply of LED lamp - Google Patents

Abstract

The utility model discloses a drive power supply of LED lamps and lanterns, adjust luminance the module, step up module, LED banks, charge management module, battery valve including AC/DC module, singlechip, PWM. The utility model discloses a problem of ambient brightness sudden change when solving LED lamps and lanterns switch such as singlechip, battery and circuit connection setting, slowly light up when realizing turning on the light, slowly darken when turning off the light effect, the process that makes the change of people's eye adaptation luminance is more comfortable, and protection eyes are impaired because of ambient brightness sudden change, have characteristics such as convenient to use, simple structure, comfortable eyeshield.

Description

Driving power supply of LED lamp

Technical Field

The utility model relates to a LED lamps and lanterns technical field specifically, relates to a drive power supply of LED lamps and lanterns.

Background

The driving power supply of the LED lamp in the current market is mainly controlled by a switch to light on and off the lamp, and the LED lamp is instantly lighted and reaches the set brightness when the switch is turned on; and when the switch is turned off, the LED lamp is instantly extinguished. Since the optic nerve of the human eye adjusts the sensitivity, i.e., the brightness adaptation, accordingly as the intensity of light changes, a process is required. Especially, when the light is suddenly turned on in a completely dark environment at night, optic nerves are highly sensitive after a dark adaptation process for a long time, and direct and sudden entering of the optic nerves under strong light can cause eye injury and discomfort. Because the initial light efficiency of the LED lamp with the same power is obviously higher than that of an incandescent lamp and an energy-saving lamp, the existing LED lamp hardly has adaptation time for human eyes when the lamp is turned on in the dark, and the human eyes do not have an adaptation process, so that people feel that the lamp light is particularly dazzling. Similarly, when the lamp is turned off and is suddenly switched to a dark environment, the brightness is instantly and greatly reduced, so that the human eyes cannot see, and the problems of mental panic, furniture collision and the like are caused.

In addition, in some existing LED lamp power supplies, only the power supply output is turned off after the lamp is turned off, the internal circuit still works in a standby state, electric energy is continuously consumed, the circuit works for a long time, the service life of the circuit is shortened, and fire hazard can be caused.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a drive power supply of LED lamps and lanterns to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a driving power supply of an LED lamp comprises an AC/DC module, a single chip microcomputer, a PWM dimming module, a boosting module and an LED lamp set;

one end of the AC/DC module is connected with an AC power supply through a wire, and the other end of the AC/DC module supplies power to the LED lamp bank and the single chip microcomputer through the boosting module; the single chip microcomputer is connected with the boosting module through the PWM dimming module, outputs a signal instruction to the PWM dimming module, and controls the boosting module to drive the LED lamp set through the PWM dimming module;

when the LED lamp is turned on, the single chip microcomputer detects direct-current voltage provided by the AC/DC module, sends a starting signal to the PWM dimming module, the PWM dimming module gradually increases the duty ratio, and the boosting module is controlled to enable the LED lamp to be turned on slowly.

Preferably, the driving power supply of the LED lamp further comprises a charging management module, a battery, and a battery valve; the AC/DC module charges a battery through the charging management module; the battery supplies power to the boosting module and the single chip microcomputer through the current valve;

when the lamp is turned off, the AC/DC module does not provide direct current voltage for the single chip microcomputer any more, the single chip microcomputer detects that the voltage is reduced, a battery valve is started, and the battery supplies power to the boosting module and the single chip microcomputer through the battery valve; the single chip microcomputer outputs signals to the PWM dimming module, the PWM dimming module gradually reduces the duty ratio, and the boosting module is controlled to enable the LED lamp to slowly fade;

after the lamp is turned on, the power supply slowly charges the battery under the action of the charging management module, and the charging is automatically stopped after the battery is fully charged.

Preferably, a circuit that a diode is matched with the MOS transistor is built in the current valve, so that the current flows out in a single direction from the battery to the voltage boosting module.

Preferably, after the LED lamp is turned off, the single chip outputs a closing control signal to the battery valve, the battery valve is closed, the power supply of the whole circuit is cut off, and the battery is kept in an idle state. Therefore, the storage time of the electric quantity of the battery can be greatly prolonged, namely, the battery can continuously keep a working state without being charged for 3 months. Here the power off is a true power off, completely without connection to the AC220V power supply.

Preferably, the driving power supply of the LED lamp further comprises a battery temperature detection management module for detecting a battery temperature and performing temperature management on the battery, the battery temperature detection management module is connected to the battery and connected to the single chip microcomputer, and transmits a battery temperature signal to the single chip microcomputer after detecting the battery temperature signal, when the battery temperature is too high, the single chip microcomputer sends a signal to the charging management module, and the charging management module disconnects a path between the AC/DC module and the battery.

The output end of the voltage boosting circuit is prevented from causing irreversible damage to the whole circuit after short circuit caused by circuit damage, aging, mouse biting and the like. Preferably, an open-circuit protection module and a short-circuit protection module are arranged between the boosting module and the LED lamp bank.

Compared with the prior art, the beneficial effects of the utility model are that: drive power supply of LED lamps and lanterns, through singlechip, battery and circuit connection setting etc, ambient brightness abrupt change's problem when solving LED lamps and lanterns switch slowly lights up when realizing turning on the light, slowly darkens effect when turning off the light, makes the process of the change of people's eye adaptation luminance more comfortable, protection eyes are impaired because of ambient brightness abrupt change, have characteristics such as convenient to use, simple structure, comfortable eyeshield.

Drawings

Fig. 1 is a circuit diagram according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, a driving power supply of an LED lamp includes an AC/DC module, a single chip, a PWM dimming module, a boosting module, and an LED lamp set;

one end of the AC/DC module is connected with an AC power supply through a wire, and the other end of the AC/DC module supplies power to the LED lamp bank and the single chip microcomputer through the boosting module; the single chip microcomputer is connected with the boosting module through the PWM dimming module, outputs a signal instruction to the PWM dimming module, and controls the boosting module to drive the LED lamp set through the PWM dimming module;

when the LED lamp is turned on, the single chip microcomputer detects direct-current voltage provided by the AC/DC module, sends a starting signal to the PWM dimming module, the PWM dimming module gradually increases the duty ratio, and the boosting module is controlled to enable the LED lamp to be turned on slowly.

The driving power supply of the LED lamp also comprises a charging management module, a battery and a battery valve; the AC/DC module charges a battery through the charging management module; the battery supplies power to the boosting module and the single chip microcomputer through the current valve;

when the lamp is turned off, the AC/DC module does not provide direct current voltage for the single chip microcomputer any more, the single chip microcomputer detects that the voltage is reduced, a battery valve is started, and the battery supplies power to the boosting module and the single chip microcomputer through the battery valve; the single chip microcomputer outputs signals to the PWM dimming module, the PWM dimming module gradually reduces the duty ratio, and the boosting module is controlled to enable the LED lamp to slowly fade;

after the lamp is turned on, the power supply slowly charges the battery under the action of the charging management module, and the charging is automatically stopped after the battery is fully charged.

The current valve is internally provided with a circuit with a diode matched with an MOS (metal oxide semiconductor) tube, so that the current flows out from the battery to the boosting module in a single direction.

When the LED lamp is in the dark, the single chip microcomputer outputs a closing control signal to the battery valve, the battery valve is closed, the power supply of the whole circuit is cut off, and the battery is kept in an idle state. Therefore, the storage time of the electric quantity of the battery can be greatly prolonged, namely, the battery can continuously keep a working state without being charged for 3 months. Here the power-off of the power supply is a true power-off, completely without connection to the AC220V power supply.

The driving power supply of the LED lamp further comprises a battery temperature detection management module used for detecting the temperature of the battery and managing the temperature of the battery, the battery temperature detection management module is connected with the battery and is in data connection with the single chip microcomputer, the battery temperature signal is transmitted to the single chip microcomputer after being detected, when the temperature of the battery is too high, the single chip microcomputer sends a signal to the charging management module, and the charging management module disconnects a passage between the AC/DC module and the battery.

The AC power source is AC220V alternating current, and the AC/DC module converts the alternating current into DC 12V.

And an open-circuit protection module and a short-circuit protection module are arranged between the boosting module and the LED lamp bank.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A driving power supply of an LED lamp is characterized by comprising an AC/DC module, a single chip microcomputer, a PWM dimming module, a boosting module and an LED lamp set;

one end of the AC/DC module is connected with an AC power supply through a wire, and the other end of the AC/DC module supplies power to the LED lamp bank and the single chip microcomputer through the boosting module; the single chip microcomputer is connected with the boosting module through the PWM dimming module, outputs a signal instruction to the PWM dimming module, and controls the boosting module to drive the LED lamp bank through the PWM dimming module.

2. The LED lamp driving power supply according to claim 1, further comprising a charging management module, a battery valve; the AC/DC module charges a battery through the charging management module; the battery supplies power to the boosting module and the single chip microcomputer through the current valve.

3. The driving power supply of the LED lamp according to claim 2, wherein a circuit in which a diode is coupled to the MOS transistor is built in the current valve.

4. The LED lamp driving power supply according to claim 3, further comprising a battery temperature detection management module for detecting a battery temperature and performing temperature management on the battery, wherein the battery temperature detection management module is connected to the battery and the single chip microcomputer, and transmits a battery temperature signal to the single chip microcomputer after detecting the battery temperature signal.

5. The LED lamp driving power supply according to claim 4, wherein the AC power supply is AC220V AC, and the AC/DC module converts the AC power supply into DC 12V.

6. The LED lamp driving power supply according to claim 5, wherein an open-circuit protection module and a short-circuit protection module are arranged between the boosting module and the LED lamp set.

Images