CN205726542U - Wireless self-networking dimming driver - Google Patents

Abstract

The utility model proposes a kind of wireless self-networking dimming driver, including: constant current source, DC/DC converter unit, sensor detector unit, controller, PWM output unit, DO output unit and wireless self-networking communication unit, the input of sensor detector unit is connected to receive analog signals with detector for moving object etc., the outfan of controller is connected with the input of DO output unit, and the outfan of DO output unit is connected with outside switching mode circuit by relay；The outfan of controller is connected with the input of PWM output unit, controls tunable optical circuit；Wireless self-networking communication unit is connected with controller, and by wireless self-networking and external control unit outside wireless connections.This utility model solves tunable optical light fixture and drives and the compatibling problem of traditional illuminating lamp switch that opens the light, and can well control tunable optical light source and common non-adjustable radiant simultaneously.

Description

Wireless self-networking dimming driver

Technical field

This utility model relates to illuminating actuation techniques field, particularly to a kind of wireless self-networking dimming driver.

Background technology

Along with the development of PWM light regulating technology, Dimmable lighting is all widely applied in business, hotel, family, and and passes System regular tap lighting gets more and more in the chance of same applications.Tradition regular tap, typically uses manual type, Way to manage falls behind；Common artificial light modulation, it is impossible to automatically adjust lamp according to using the change of functional mapping, Natural light intensity degree Brightness, easily causes unnecessary waste.But, the switch of the switch of tunable optical light fixture and traditional lighting that opens the light is former Reason difference, generally uses both light fixtures and is separately controlled, and there is the problem that wiring is complicated and backward in management, is difficult to meet people To intelligent and energy-conservation demand.Traditional illumination uses bus form, needs to use in a large number communication cable, exists Installation work amount is big, the problem that cost of labor is high.

Patent CN 201078671 discloses a kind of wireless self-networking dimming driver, by arranging tunable optical on panel Switch and non-adjustable photoswitch, realize the control to two kinds of dissimilar illuminations respectively.This side being separately controlled , there is the problem that wiring is complicated, backward in management in formula.

Utility model content

The purpose of this utility model is intended at least solve one of described technological deficiency.

To this end, the purpose of this utility model is to propose a kind of wireless self-networking dimming driver, solve tunable optical light fixture Drive and tradition is opened the light the compatibling problem of illuminating lamp switch, tunable optical light source and the most non-adjustable can well be controlled simultaneously Radiant, and owing to this utility model has MANET function, it is also possible to and other MANETs driving formation multinode network Lighting control.

To achieve these goals, embodiment of the present utility model provides a kind of invisible MANET dimming driver, including: permanent Stream power supply, DC/DC converter unit, sensor detector unit, controller, PWM output unit, DO output unit and wireless MANET communication unit, wherein,

The input termination civil power of described constant current source, outfan is connected with the input of described DC/DC converter unit, described The outfan of DC/DC converter unit is connected with described controller to provide unidirectional current to described controller；

The input of described sensor detector unit be connected with detector for moving object, button, switch and environmental detection unit with Receive and trigger signal, on-off model, ambient light illumination analog signals, temperature simulation amount signal and humidity simulation amount signal, The outfan of described sensor detector unit is connected with the input of described controller；

The outfan of described controller is connected with the input of described DO output unit, to described DO output unit output switch Signal, the outfan of described DO output unit is connected, with by described with outside non-adjustable photoswitch type circuit by relay Switching signal drives described non-adjustable photoswitch type circuit；

The outfan of described controller is connected with the input of described PWM output unit, adjusts to the output of described PWM output unit Optical control signal, wherein, described PWM output unit is according to described dimming control signal output pwm signal, and described PWM is defeated Go out outfan and the tunable optical circuit of unit, to be controlled described tunable optical circuit by described pwm signal；

Described wireless self-networking communication unit is connected with described controller by spi bus, and by wireless self-networking with outside Control unit wireless connections.

Further, described constant current source input with outside tunable optical DC/DC constant current driving unit further is connected, institute The outfan stating tunable optical DC/DC constant current driving unit is connected with described tunable optical circuit.

Further, described controller includes: DI input block and analog to digital AD conversion unit, and wherein, described DI inputs The input of unit is connected with the outfan of described sensor detector unit, the input of described AD conversion unit and described DI The outfan of input block is connected, so that analog signals is converted to digital quantity signal.

Further, described controller is microcontroller.

Further, also including: memorizer, described memorizer is connected with described controller.

Further, described tunable optical circuit includes: LED lamp source and/or gas-discharge lamp.

Wireless self-networking dimming driver according to this utility model embodiment, solves the driving of tunable optical light fixture and tradition is opened the light The compatibling problem of illuminating lamp switch, can well control tunable optical light source and common non-adjustable radiant simultaneously, and by In this utility model, there is MANET function, it is also possible to and other MANETs driving formation multinode network Lighting control strategy. This utility model efficiently solves tunable optical light fixture and drives and the compatibling problem of traditional illuminating lamp switch that opens the light, and makes illumination supervision Become simpler with plant maintenance；External mobile detectable signal and ambient light illumination signal, can store a large amount of environmental data, make The illuminance of different time, varying environment can accurately be arranged and manage by driver, it is achieved maximum energy-saving effect.This The wireless self-networking dimming driver of utility model is automatically controlling based on MCU controller to the control of light fixture, manually controls It is made as auxiliary, it is also possible to the preset parameter of light scene is entered in memorizer, it is achieved automatically control, uses more convenient intelligence, make Illumination supervision and plant maintenance become simpler, it is achieved maximum energy-saving effect.Owing to this utility model uses constant current source, Driver can effectively suppress the fluctuation of line voltage, by system to functions such as the restrictions of voltage and yoke stream filtering, it is to avoid the most electric Pressure and the under-voltage infringement to light fixture.

Aspect and advantage that this utility model is additional will part be given in the following description, and part will be from explained below In become obvious, or recognized by practice of the present utility model.

Accompanying drawing explanation

Above-mentioned and/or additional aspect of the present utility model and advantage are from combining the accompanying drawings below description to embodiment and will become Substantially with easy to understand, wherein:

Fig. 1 is the structure chart of the wireless self-networking dimming driver according to this utility model embodiment.

Detailed description of the invention

Of the present utility model embodiment is described below in detail, and the example of described embodiment is shown in the drawings, the most from start to finish Same or similar label represents same or similar element or has the element of same or like function.Below with reference to attached The embodiment that figure describes is exemplary, it is intended to be used for explaining this utility model, and it is not intended that to limit of the present utility model System.

The utility model proposes a kind of wireless self-networking dimming driver, this driver can realize Dimmable lighting electricity simultaneously Road and the driving of common non-adjustable optical illumination circuit, and can realize being automatically adjusted by detection external environment illumination and lighting demand The quantity of illumination.

As it is shown in figure 1, the wireless self-networking dimming driver of this utility model embodiment, including: constant current source 1, DC/DC Converter unit 2, sensor detector unit 3, controller 4, PWM output unit 5, DO output unit 6 and wireless self-networking Communication unit 7.

Specifically, the input termination AC22V civil power of constant current source 1, civil power is carried out AC-DC conversion, exports unidirectional current. The outfan of constant current source 1 is connected with the input of DC/DC converter unit 2.Straight by input by DC/DC converter unit 2 Stream electricity carries out DC-DC conversion.The outfan of DC/DC converter unit 2 is connected to provide direct current to controller 4 with controller 4 Electricity.

Further, constant current source 1 input with outside tunable optical DC/DC constant current driving unit further is connected, adjustable The outfan of light DC/DC constant current driving unit is connected with tunable optical circuit, thus to outside tunable optical circuit offer work electricity Stream.

Thus, constant current source 1 can not only be used for the working power of wireless self-networking dimming driver, is also the adjustable of outside simultaneously Optical circuit provides constant operation electric current.

The input of sensor detector unit 3 is connected with detector for moving object, button, switch and environmental detection unit, connects Receive triggering signal, the on-off model of switch, environmental detection unit ambient light illumination analog quantity that detector for moving object produces The input of signal, temperature simulation amount signal and humidity simulation amount signal, the outfan of sensor detector unit 3 and controller 4 End is connected, and the transmission of above-mentioned signal is processed to controller 4.

In an embodiment of the present utility model, controller 4 includes: DI input block and analog to digital AD conversion unit. Wherein, the input of DI input block is connected with the outfan of sensor detector unit 3, receives above-mentioned detector for moving object Produce triggers signal, the on-off model of switch, environmental detection unit ambient light illumination analog signals, temperature simulation amount Signal and humidity simulation amount signal.

The input of AD conversion unit is connected with the outfan of DI input block, so that above-mentioned analog signals is converted to digital quantity Signal.

Digital quantity signal after above-mentioned conversion is analyzed by controller 4, obtains lighting demand information, then sends corresponding Control instruction is to PWM output unit 5 and DO output unit 6.

Preferably, controller 4 can be microcontroller 4MCU.

The outfan of controller 4 is connected with the input of DO output unit 6, to DO output unit 6 output switching signal, The outfan of DO output unit 6 is connected with outside common non-adjustable photoswitch type circuit by relay, output switching signal, Non-adjustable photoswitch type circuit is driven by relay.

Such as, common non-adjustable photoswitch type circuit includes: the conventional lamp that can not dim, such as conventional fluorescent lamps, daylight Lamp, electricity-saving lamp etc..

The outfan of controller 4 is connected with the input of PWM output unit 5, exports brightness adjustment control to PWM output unit 5 Signal.PWM output unit 5 is according to dimming control signal output pwm signal, the outfan of PWM output unit 5 and tunable optical Circuit, is controlled tunable optical circuit by pwm signal.Pwm signal changes pulse width according to signal level, it is achieved control outside Tunable optical circuit.Wherein, tunable optical circuit includes: utilize PWM pulse-width signal to control the tunable optical light fixture of light modulation, example Such as LED lamp source and/or gas-discharge lamp etc..

Further, the wireless self-networking dimming driver of embodiment of the present utility model, also include: memorizer.This memorizer It is connected with controller 4, the signal received for storage control 4 and the parameter of lighting preset scene.

Controller 4 receives DI input conditioning unit and the signal that sent of AD conversion unit, and sends signal to memorizer Unit stores, it is possible to read in memory cell the scene setting parameter prestored, according to the data of external environment or prestore Scenario parameters sends instructions to PWM output unit 5 and DO output unit 6.That is, controller 4 is according to the number of external environment According to or the scenario parameters that prestores, send switching signal and dimming control signal, can be automatically adjusted with the change of ambient light illumination Brightness.

Wireless self-networking communication unit 7 is connected with controller 4 by spi bus, and by wireless self-networking and external control Unit wireless connects.Wherein, external control unit outside is other wireless self-networking dimming driver outside.That is, wireless from group Multiple wireless self-networking dimming drivers are automatically composed lighting mains by controlling requirement by net communication unit 7.Wherein, local Wireless self-networking communication unit 7 can receive the instruction from external wireless MANET dimming driver middle controller 4, and to Its execution result back.

Wireless self-networking dimming driver according to this utility model embodiment, solves the driving of tunable optical light fixture and tradition is opened the light The compatibling problem of illuminating lamp switch, can well control tunable optical light source and common non-adjustable radiant simultaneously, and by In this utility model, there is MANET function, it is also possible to and other MANETs driving formation multinode network Lighting control strategy. This utility model efficiently solves tunable optical light fixture and drives and the compatibling problem of traditional illuminating lamp switch that opens the light, and makes illumination supervision Become simpler with plant maintenance；External mobile detectable signal and ambient light illumination signal, can store a large amount of environmental data, make The illuminance of different time, varying environment can accurately be arranged and manage by driver, it is achieved maximum energy-saving effect.This The wireless self-networking dimming driver of utility model is automatically controlling based on MCU controller to the control of light fixture, manually controls It is made as auxiliary, it is also possible to the preset parameter of light scene is entered in memorizer, it is achieved automatically control, uses more convenient intelligence, make Illumination supervision and plant maintenance become simpler, it is achieved maximum energy-saving effect.Owing to this utility model uses constant current source, Driver can effectively suppress the fluctuation of line voltage, by system to functions such as the restrictions of voltage and yoke stream filtering, it is to avoid the most electric Pressure and the under-voltage infringement to light fixture.

In the description of this specification, reference term " embodiment ", " some embodiments ", " example ", " specifically show Example " or the description of " some examples " etc. means to combine this embodiment or example describes specific features, structure, material or Feature is contained at least one embodiment of the present utility model or example.In this manual, schematic to above-mentioned term Statement is not necessarily referring to identical embodiment or example.And, the specific features of description, structure, material or feature can To combine in an appropriate manner in any one or more embodiments or example.

Although above it has been shown and described that embodiment of the present utility model, it is to be understood that above-described embodiment is example Property, it is impossible to it is interpreted as that, to restriction of the present utility model, those of ordinary skill in the art is without departing from of the present utility model former Above-described embodiment can be changed in the range of this utility model in the case of reason and objective, revise, replace and modification. Scope of the present utility model is extremely equal to by claims and limits.

Claims (6)

1. a wireless self-networking dimming driver, it is characterised in that including: constant current source, DC/DC converter unit, biography Sensor detector unit, controller, PWM output unit, DO output unit and wireless self-networking communication unit, wherein,

The input termination civil power of described constant current source, outfan is connected with the input of described DC/DC converter unit, described The outfan of DC/DC converter unit is connected with described controller to provide unidirectional current to described controller；

The input of described sensor detector unit be connected with detector for moving object, button, switch and environmental detection unit with Receive and trigger signal, on-off model, ambient light illumination analog signals, temperature simulation amount signal and humidity simulation amount signal, The outfan of described sensor detector unit is connected with the input of described controller；

The outfan of described controller is connected with the input of described DO output unit, to described DO output unit output switch Signal, the outfan of described DO output unit is connected, with by described with outside non-adjustable photoswitch type circuit by relay Switching signal drives described non-adjustable photoswitch type circuit；

The outfan of described controller is connected with the input of described PWM output unit, adjusts to the output of described PWM output unit Optical control signal, wherein, described PWM output unit is according to described dimming control signal output pwm signal, and described PWM is defeated Go out outfan and the tunable optical circuit of unit, to be controlled described tunable optical circuit by described pwm signal；

Described wireless self-networking communication unit is connected with described controller by spi bus, and by wireless self-networking with outside Control unit wireless connections.

2. wireless self-networking dimming driver as claimed in claim 1, it is characterised in that described constant current source further with The input of outside tunable optical DC/DC constant current driving unit is connected, the output of described tunable optical DC/DC constant current driving unit End is connected with described tunable optical circuit.

3. wireless self-networking dimming driver as claimed in claim 1, it is characterised in that described controller includes: DI Input block and analog to digital AD conversion unit, wherein, the input of described DI input block is single with the detection of described sensor The outfan of unit is connected, and the input of described AD conversion unit is connected with the outfan of described DI input block, simulating Amount signal is converted to digital quantity signal.

4. the wireless self-networking dimming driver as described in claim 1 or 3, it is characterised in that described controller is micro-control Device MCU processed.

5. wireless self-networking dimming driver as claimed in claim 1, it is characterised in that also include: memorizer, described Memorizer is connected with described controller.

6. wireless self-networking dimming driver as claimed in claim 1, it is characterised in that described tunable optical circuit includes: LED lamp source and/or gas-discharge lamp.