WO2014056243A1 - Intelligent power supply detection and control apparatus - Google Patents

Abstract

An intelligent power supply detection and control apparatus comprises: a master controller circuit (101), an AC power supply management circuit (102), and an AC illuminator drive circuit (108). An input end of the master controller circuit is connected to an illumination state detection circuit (103), an AC-N circuit on/off and power off detection circuit (104), an AC-L circuit on/off and power off detection circuit (105), and a master-control power supply and battery charging management circuit (106). An output end of the master controller circuit is connected to a DC illuminator drive circuit (107). The master controller circuit can control turn-on, prolonging of the turn-on state, or turn-off by turning on/off the illuminator and according to the power-on or power-off state of the line. When the power is off, the illuminator is used as an emergency lamp, and it is not required to additionally arrange the lines and mount the emergency lamp.

Description

Intelligent power supply detection and control device

Technical field:

The utility model relates to the technical field of lighting control circuits, in particular to an intelligent power supply detecting and controlling device.

Background technique:

In the prior art, the lighting control circuit lights up one of the two lines of the live line and the zero line in the line without an alternating current signal, but the control circuit turns off the light in the illumination. In the state, the lighting time of the illuminating lamp cannot be controlled, that is, the illuminating lamp cannot be turned off after being turned off for a period of time and then automatically extinguished, so that the existing illuminating lamp control circuit cannot be used for the delay point after the person turns off the illuminating light before going to sleep. Bright for a period of time, and after the AC switch is closed, the sudden power outage is used as an emergency lighting escape. That is, in the prior art, the lighting and the lighting of the illuminating lamp are usually synchronized with the switch, and there is no time delay illumination; while the emergency illuminating lamp is usually powered by a different line than the ordinary illuminating lamp, the illuminating lamp cannot be used as the illuminating lamp. For emergency lights.

Utility model content:

The purpose of the utility model is to overcome the above-mentioned deficiencies of the prior art and to provide an intelligent power supply detection and control device.

The technical solution adopted by the utility model for achieving the purpose thereof is: an intelligent power supply detection control device, which comprises a main controller circuit, an AC power supply management circuit and an AC illumination lamp driving circuit, wherein the main controller circuit The input terminal is also respectively connected with a lighting power supply detecting circuit, an AC-N circuit switching and power failure detecting circuit, an AC-L circuit switching and power failure detecting circuit, a main control power supply and a battery charging management circuit; and an output terminal of the main controller circuit A DC illuminator drive circuit is also connected.

The utility model adopts the above control circuit, the main controller circuit can control the lighting of the illumination lamp, the delay lighting or the extinction according to the on and off conditions of the opening and closing of the lamp and the line, that is, the illumination lamp can also be turned off when the switch is turned off. The lighting has a certain time delay, and then automatically turns off; and, when the line is detected to be powered off, that is, when the power failure is detected, the DC lighting driving circuit can be controlled by the main control circuit to control the lighting time of the lighting, which is used as an emergency light, that is, no additional wiring is needed. And install emergency lights. Therefore, by adopting the control circuit of the utility model, the arrangement of the power supply lines can be simplified and the corresponding cost can be saved.

BRIEF DESCRIPTION OF THE DRAWINGS:

1 is a schematic diagram of the circuit composition principle of the present invention.

detailed description:

The present invention will be further described below in conjunction with the specific embodiments and the accompanying drawings.

As shown in FIG. 1, the intelligent power supply detection control device of the present invention includes a main controller circuit 101, an AC power supply management circuit 102, an AC illumination lamp drive circuit 108, and an input terminal of the main controller circuit 101. A switch detection circuit 104 and a line on/off detection circuit 105 are also respectively connected, and an output end of the main controller circuit 101 is connected with an illumination power supply detection circuit 103, an AC-N circuit on/off and power failure detection circuit 104, and an AC-L circuit connection. The power failure detecting circuit 105, the main power supply and the battery charging management circuit 106; the output of the main controller circuit 101 is also connected to the DC lighting driving circuit 107. The illumination state detecting circuit 103 is configured to detect the switch closing and opening states in the AC power management circuit 102; the AC-N circuit on/off and power failure detecting circuit 104, and the AC-L circuit on/off and power failure detecting circuit 105 are used to respectively Detecting whether the AC-N and AC-L lines in the line of the AC power management circuit 102 are in an on/off state or a power outage state; the DC illumination lamp driving circuit is used to control the power supply required for the delay operation of the illumination lamp and the delay lighting time .

The working principle of the utility model is as follows: the first control input end a of the main controller circuit 101 is connected to the illumination power supply detecting circuit 103, and the input signal is determined by the on and off conditions of the illumination lamp; and the second control input terminal b thereof Connected to the AC-N circuit on/off and power-down detection circuit 104, the third control input terminal c is connected to the AC-L circuit on/off and power-down detection circuit 105, and the input signal is turned on and off and the AC is powered off by the line switch. The situation is decided.

When the line is energized and the light switch is turned on, the first control input a of the main controller circuit 101 is a low level signal, and the main controller circuit 101 makes a direct illumination of the illumination 107 without any other processing.

When the light switch is turned off, the first control input a of the main controller circuit 101 is a high level signal, and the main controller circuit 101 detects the signal states of the second control input b and the third control input c. When the signal of the second control input terminal b or the third control input terminal c is the frequency signal of the AC illumination power supply, it is determined that the light is turned off, and the main controller circuit issues a control signal according to the set delay lighting time. The DC lighting drive circuit is controlled to operate, and the illumination lamp 109 is turned on until the corresponding time is extinguished. When there is no AC power supply frequency signal in the second control input terminal b signal and the third control input terminal c, it is determined that the AC power-off state (ie, the power-off state), the main controller circuit 101 activates the emergency backup power supply function, and issues control. The signal to the DC illumination lamp driving circuit 107 supplies power to the illumination lamp 109, and the illumination lamp 109 is kept in the lighting state until the circuit is restored to the energized state. Therefore, the illumination lamp 109 is used as an emergency light during the power failure.

The utility model adopts the above control circuit, the main controller circuit can control the lighting of the illumination lamp, the delay lighting or the extinction according to the on and off conditions of the opening and closing of the lamp and the line, that is, the illumination lamp can also be turned off when the switch is turned off. The lighting has a certain time delay, and then automatically turns off; and, when the line is detected to be powered off, that is, when the power failure is detected, the DC lighting driving circuit can be controlled by the main control circuit to control the lighting time of the lighting, which is used as an emergency light, that is, no additional wiring is needed. And install emergency lights. Therefore, by adopting the control circuit of the utility model, the arrangement of the power supply lines can be simplified and the corresponding cost can be saved.

Claims (1)

1. An intelligent power supply detection control device, comprising: a main controller circuit (101), an AC power supply management circuit (102) and an AC illumination lamp driving circuit (108), wherein: the main controller circuit The input end of (101) is also respectively connected with a lamp power supply detecting circuit (103), an AC-N circuit on/off and power failure detecting circuit (104), an AC-L circuit on/off and power failure detecting circuit (105), and a main control power supply. And a battery charging management circuit (106); the output of the main controller circuit (101) is further connected with a DC illumination driving circuit (107).

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