CN206923081U - A kind of intelligent remote multifunctional controller - Google Patents

Abstract

The utility model provides a kind of intelligent remote multifunctional controller, for output control signal to control light to work, including：First interface, the first interface include the first signal end and the first earth terminal；Second interface, the second interface include secondary signal end and the second earth terminal；The first interface is coupled with the first signal processing circuit, and the second interface is coupled with secondary signal process circuit；There is provided two different interfaces, and corresponding two interfaces set corresponding process circuit respectively, realize the processing and sampling of signal, provide more selections for signal light control, ensure the control reliability of flashing light.

Description

A kind of intelligent remote multifunctional controller

Technical field

Flashing light control technology field is the utility model is related to, is specifically related to a kind of intelligent remote multifunctional controller.

Background technology

Flashing light, be otherwise known as sudden and violent flashing light, stroboscopic lamp, is (such as with electric capacity mcu programming IC using electronically Deng), make light source at a slow speed or quickly flash, play a part of warning.The light source of flashing light is divided into 2 kinds：1st, high-pressure discharge Type fluorescent tube：There are elongated fluorescent tube, U-shaped flashing light pipe, screw type flashing light pipe etc. in shape, because this kind of fluorescent tube flash speed is fast, Brightness is high, is once widely used；But with the continuous maturation of LED technology, gradually substituted by high-power LED light source； 2nd, LED light emitting diodes：The distinguishing feature of this light source is efficiency high, saves electric power, and the good lens of matching design can obtain Splendid brightness, it has also become the unexpected rival in flashing light field.

And at present in flashing light control technology, lamp dimmer plays vital effect, due to current signal light control The problem of certain be present in device, because general control interface includes a kind of control variable using frequency as control signal of two kinds of forms, The signal frequency of different control variable output is different, and another kind is that analog voltage is output variable, and different magnitudes of voltage represents Control variable it is different, so lacking a kind of flashing light lamp dimmer that can correspond to distinct interface in the market.

Utility model content

For the above-mentioned problems in the prior art, a kind of intelligent remote multifunctional controller is now aimed to provide, with reality Existing multiplex roles control.

Concrete technical scheme is as follows：

A kind of intelligent remote multifunctional controller, for output control signal to control light to work, including：

First interface, the first interface include the first signal end and the first earth terminal；

Second interface, the second interface include secondary signal end and the second earth terminal；

The first interface is coupled with the first signal processing circuit, and the second interface is coupled with secondary signal processing electricity Road；

First signal processing circuit includes

First gain unit, its input couple first signal end, and its output end is used for output gain signal, described The current value of gain signal follows the electric current value changes of first signal end and changed；

First buffer cell, including the first filter capacitor, the first discharge resistance and the first commutation diode, described first Filter capacitor one end couples the output end of first gain unit, and the other end couples the anode of first commutation diode, First discharge resistance is coupled between the output end and ground terminal of first gain unit, in first commutation diode Negative electrode produce the first buffering signals；

First comparing unit, couple the negative electrode of first commutation diode and receive first buffering signals, and match somebody with somebody Reference voltage is equipped with, first comparing unit is used to compare the first buffering signals and reference voltage and export first to compare letter Number, first comparison signal is as described control signal；

The secondary signal process circuit includes

Second sampling unit, second sampling unit couple the second interface and for obtaining the second sampled voltage, The value of second sampled voltage follows the electric current value changes at the secondary signal end and changed；

Second comparing unit, couple second sampling unit and configure and used by reference voltage, second comparing unit In the size for comparing the second sampled voltage and the reference voltage and export the second comparison signal；

Second amplifying unit, second amplifying unit couple the output end of second comparing unit, and described second puts Big unit is used to export the second amplified signal, and the magnitude of voltage of second amplified signal follows the electric current of second comparison signal Value changes and change, second amplified signal is as the control signal.

Further, it is coupled with the first voltage-regulator diode between first signal end and the first earth terminal.

Further, it is coupled with the second voltage-regulator diode between the secondary signal end and the second earth terminal.

Further, first gain unit includes the first triode, the base stage of first triode and described the The first gain resistor and the first protective resistance have been sequentially connected in series between one signal end；The emitter stage and base of first triode The second gain resistor is coupled between pole, the emitter stage of first triode is coupled with first voltage source, the first voltage The magnitude of voltage in source is 5V, and the colelctor electrode of first triode couples first buffer cell.

Further, the first voltage source is configured to the first voltage reduction module, the operating voltage of first voltage reduction module There is provided by the second voltage source, the voltage of the second voltage source is 12V.

Further, the second voltage source is configured to the second voltage reduction module, the operating voltage of second voltage reduction module There is provided by outside civil power.

Further, the reference voltage is by being series at the first divider resistance and second point that one second dc source is set Piezoresistance provides, and the node of the first divider resistance and the second divider resistance coupling provides the reference voltage.

Further, first comparing unit includes the first amplifier as comparator, first amplifier Positive input terminal couples the negative electrode of first commutation diode, and the negative input end of first amplifier couples the benchmark electricity Pressure, the output end of first amplifier are used to export first comparison signal.

Further, second comparing unit includes the second amplifier as comparator, second amplifier Positive input terminal couples the sampling unit, and its negative input end couples the reference voltage, and the output end of second amplifier is used In output second comparison signal.

Further, second sampling unit includes the be arranged in series between the secondary signal end and 5V power supplys One sampling resistor and the second sampling resistor.

The good effect of above-mentioned technical proposal is：

Above-mentioned multifunctional remote lamp dimmer, there is provided two different interfaces, and corresponding two interfaces are set respectively Corresponding process circuit is put, realizes the processing and sampling of signal, more selections is provided for signal light control, ensures flashing light Control reliability.

Brief description of the drawings

Fig. 1 is a kind of the first process circuit schematic diagram of intelligent remote multifunctional controller of the present utility model；

Fig. 2 is a kind of second processing circuit theory diagrams of intelligent remote multifunctional controller of the present utility model；

Fig. 3 is a kind of amplifying circuit schematic diagram of intelligent remote multifunctional controller of the present utility model；

Fig. 4 is a kind of the second voltage source schematic diagram of intelligent remote multifunctional controller of the present utility model；

In accompanying drawing：100th, first interface；111st, the first gain unit；112nd, the first buffer cell；113rd, first is relatively more single Member；114th, the first amplifying unit；110th, first voltage source；120th, the second voltage source；200th, second interface；211st, the second sampling is single Member；212nd, the second comparing unit；213rd, the second amplifying unit；D16, the first voltage-regulator diode；D15, the second voltage-regulator diode； Q5, the first triode；R37, the first protective resistance；R34, the first gain resistor；R30, the second gain resistor；U6A, the first amplification Device；U6B, the second amplifier；C17, the first filter capacitor；R31, the first discharge resistance；D13, the first commutation diode；R32, One sampling resistor；R36, the second sampling resistor.

Embodiment

In order that technological means, creation characteristic, reached purpose and effect that the utility model is realized are easy to understand, with Lower embodiment combination accompanying drawing 1 is specifically addressed to accompanying drawing 4 to technical scheme provided by the utility model, but herein below not as Restriction of the present utility model.

A kind of intelligent remote multifunctional controller, for output control signal to control light to work, including：

First interface 100, the first interface 100 include the first signal end and the first earth terminal；First signal The first voltage-regulator diode D16, the first voltage-regulator diode D16 models P6KE6.8CA is coupled between end and the first earth terminal.

Second interface 200, the second interface 200 include secondary signal end and the second earth terminal；The secondary signal The second voltage-regulator diode D15 is coupled between end and the second earth terminal.Second voltage-regulator diode D15 models P6KE6.8CA；

The first interface 100 is coupled with the first signal processing circuit, and the second interface 200 is coupled with secondary signal Manage circuit；

First signal processing circuit includes

First gain unit 111, its input couple first signal end, and its output end is used for output gain signal, The current value of the gain signal follows the electric current value changes of first signal end and changed；First gain unit 111 Including the first triode Q5, model C8550, gone here and there successively between the base stage of the first triode Q5 and first signal end The first gain resistor R34 and the first protective resistance R37 is associated with, the first gain resistor R34 resistances are 2.2K ohms, and first protects Resistance R37 resistances are 10 ohm；The second gain resistor R30 is coupled between the emitter stage and base stage of the first triode Q5, Resistance is 680 ohm, and the emitter stage of the first triode Q5 is coupled with first voltage source 110, the first voltage source 110 Magnitude of voltage is 5V, and the colelctor electrode of the first triode Q5 couples first buffer cell 112.The first voltage source 110 The first voltage reduction module is configured to, the input and output end of the first voltage reduction module are respectively arranged with two electric capacity of C19 and C20, hold Amount is 1UF, and the operating voltage of first voltage reduction module is provided by the second voltage source 120, the second voltage source 120 Voltage be 12V.The second voltage source 120 is configured to the second voltage reduction module, the operating voltage of second voltage reduction module by Outside civil power provides, and the second voltage source 120, by D10 rectification, C6 and C30 voltage stabilizing, obtains work by gathering line voltage Make voltage, its output end is coupled with C7 electric capacity, there is provided voltage regulation result, 12V voltages also provide for amplifier operation.

First buffer cell 112, including the first filter capacitor C17, the first discharge resistance R31 and the first commutation diode D13, described first filter capacitor C17 one end couple the output end of first gain unit 111, other end coupling described first Commutation diode D13 anode, the first discharge resistance R31 couple the output end and ground of first gain unit 111 Between end, the first buffering signals are produced in the negative electrode of the first commutation diode D13, the first filter capacitor C17 capacity is 0.15uf, the first commutation diode D13 model BAV21W, is coupled with D14, model is similarly between its anode and ground terminal BAV21W, the first discharge resistance R31 resistances are 5.1K ohms；

First comparing unit 113, couple the negative electrode of the first commutation diode D13 and receive the first buffering letter Number, and reference voltage is configured with, first comparing unit 113 is used to comparing the first buffering signals and reference voltage and exports the One comparison signal, first comparison signal is as described control signal；The reference voltage is by being series at one second direct current The first divider resistance and the second divider resistance that power supply is set provide, and resistance is respectively 15K ohms and 5.1K ohms, and described first Divider resistance and the node of the second divider resistance coupling provide the reference voltage.First comparing unit 113 includes being used as First amplifier U6A, the first amplifier U6A of comparator positive input terminal couples the first commutation diode D13's Negative electrode, the negative input end of the first amplifier U6A couple the reference voltage, and the output end of the first amplifier U6A is used In exporting first comparison signal, the first amplifier U6A model elects LM358D, the first amplifier U6A positive input terminal as It is grounded by the resistance R33 that resistance is 56K.

First amplifying unit 114, the first comparing unit 113 of coupling, which receives and provides gain, exports a feedback voltage, circuit Figure is as illustrated, will not be described here.

The secondary signal process circuit includes

Second sampling unit 211, second sampling unit 211 couple the second interface 200 and for obtaining second Sampled voltage, the value of second sampled voltage follow the electric current value changes at the secondary signal end and changed；Described second adopts Sample unit 211 includes the samplings of the first sampling resistor R32 and second being arranged in series between the secondary signal end and 5V power supplys Resistance R36, resistance are respectively 10 ohm and 2.2K ohms.

Second comparing unit 212, couple second sampling unit 211 and configure and compared by reference voltage, described second Unit 212 is used for the size for comparing the second sampled voltage and the reference voltage and exports the second comparison signal；Second ratio Include adopting described in the positive input terminal coupling of the second amplifier U6B, the second amplifier U6B as comparator compared with unit 212 Sample unit, its negative input end couple the reference voltage, and the output end of the second amplifier U6B is used to export second ratio Compared with signal, the second amplifier U6B models LM358D.

Second amplifying unit 213, second amplifying unit 213 couple the output end of second comparing unit 212, institute State the second amplifying unit 213 be used for export the second amplified signal, the magnitude of voltage of second amplified signal follows described second to compare Change compared with the electric current value changes of signal, second amplified signal as the control signal, the second amplifying unit 213 it is defeated Go out end and be coupled to control signal PLUS, as output；R26 resistances are 300K, and R24 resistances are 300K, and R25 resistances are 100K, R27 Resistance is 1K, C14 and C15 capacity is 1NF, and C16 capacity is 100NF, and R28 capacity is 20K.

The utility model preferred embodiment is these are only, not thereby limits embodiment of the present utility model and protection Scope, to those skilled in the art, it should can appreciate that all with the utility model specification and diagramatic content institute Scheme obtained by the equivalent substitution made and obvious change, should be included in the scope of protection of the utility model It is interior.

Claims (10)

1. a kind of intelligent remote multifunctional controller, for output control signal to control light to work, it is characterised in that bag Include：

First interface (100), the first interface (100) include the first signal end and the first earth terminal；

Second interface (200), the second interface (200) include secondary signal end and the second earth terminal；

The first interface (100) is coupled with the first signal processing circuit, and the second interface (200) is coupled with secondary signal Manage circuit；

First signal processing circuit includes

First gain unit (111), its input couple first signal end, and its output end is used for output gain signal, institute The current value for stating gain signal follows the electric current value changes of first signal end and changed；

First buffer cell (112), including the first filter capacitor (C17), the first discharge resistance (R31) and the pole of the first rectification two Manage (D13), described first filter capacitor (C17) one end couples the output end of first gain unit (111), other end coupling The anode of first commutation diode (D13), first discharge resistance (R31) couple first gain unit (111) Output end and ground terminal between, in first commutation diode (D13) negative electrode produce the first buffering signals；

First comparing unit (113), couple the negative electrode of the first rectification diode (D13) and receive the first buffering letter Number, and reference voltage is configured with, first comparing unit (113) is used to compare the first buffering signals and reference voltage and export First comparison signal, first comparison signal is as described control signal；

The secondary signal process circuit includes

Second sampling unit (211), second sampling unit (211) couple the second interface (200) and for obtaining the Two sampled voltages, the value of second sampled voltage follow the electric current value changes at the secondary signal end and changed；

Second comparing unit (212), couple second sampling unit (211) and configure and compared by reference voltage, described second Unit (212) is used for the size for comparing the second sampled voltage and the reference voltage and exports the second comparison signal；

Second amplifying unit (213), second amplifying unit (213) couple the output end of second comparing unit (212), Second amplifying unit (213) is used to exporting the second amplified signal, and the magnitude of voltage of second amplified signal follows described the The electric current value changes of two comparison signals and change, second amplified signal is as the control signal.

A kind of 2. intelligent remote multifunctional controller according to claim 1, it is characterised in that first signal end and The first voltage-regulator diode (D16) is coupled between first earth terminal.

A kind of 3. intelligent remote multifunctional controller according to claim 1, it is characterised in that the secondary signal end and The second voltage-regulator diode (D15) is coupled between second earth terminal.

A kind of 4. intelligent remote multifunctional controller according to claim 3, it is characterised in that first gain unit (111) include the first triode (Q5), be sequentially connected in series between the base stage of first triode (Q5) and first signal end There are the first gain resistor (R34) and the first protective resistance (R37)；Between the emitter stage and base stage of first triode (Q5) The second gain resistor (R30) is coupled with, the emitter stage of first triode (Q5) is coupled with first voltage source (110), described The magnitude of voltage of first voltage source (110) is 5V, and the colelctor electrode of first triode (Q5) couples first buffer cell (112)。

A kind of 5. intelligent remote multifunctional controller according to claim 4, it is characterised in that the first voltage source (110) the first voltage reduction module is configured to, the operating voltage of first voltage reduction module is provided by a second voltage source (120), institute The voltage for stating the second voltage source (120) is 12V.

A kind of 6. intelligent remote multifunctional controller according to claim 5, it is characterised in that the second voltage source (120) the second voltage reduction module is configured to, the operating voltage of second voltage reduction module is provided by outside civil power.

7. a kind of intelligent remote multifunctional controller according to claim 1, it is characterised in that the reference voltage is by going here and there The first divider resistance and the second divider resistance for being coupled to the setting of one second dc source provide, first divider resistance and second The node of divider resistance coupling provides the reference voltage.

A kind of 8. intelligent remote multifunctional controller according to claim 1, it is characterised in that first comparing unit (113) the first amplifier (U6A) as comparator, the positive input terminal coupling described the of first amplifier (U6A) are included The negative electrode of one commutation diode (D13), the negative input end of first amplifier (U6A) couple the reference voltage, and described the The output end of one amplifier (U6A) is used to export first comparison signal.

A kind of 9. intelligent remote multifunctional controller according to claim 1, it is characterised in that second comparing unit (212) include the second amplifier (U6B) as comparator, adopted described in the positive input terminal coupling of second amplifier (U6B) Sample unit, its negative input end couple the reference voltage, and the output end of second amplifier (U6B) is used to export described second Comparison signal.

10. a kind of intelligent remote multifunctional controller according to claim 9, it is characterised in that second sampling is single First (211) include the first sampling resistor (R32) being arranged in series between the secondary signal end and 5V power supplys and the second sampling Resistance (R36).