CN205029566U - Adopt direct frequency conversion communication device of bidirectional transform ware - Google Patents

Abstract

The utility model relates to a communication control field provides an adopt direct frequency conversion communication device of bidirectional transform ware, including three phase current, connect at the voltage conversion circuit of three phase current output and connect a plurality of load powers at the voltage conversion circuit output, its characterized in that: voltage conversion circuit includes the control end connection director of controller, voltage conversion module, a two direction switch unit, the 2nd two direction switch unit, the 3rd two direction switch unit, a two direction switch unit. The utility model discloses in reach the mesh of simple communication through adding ac energisation line control end communication device based on voltage converting apparatus, the utility model discloses it is small, only just work in needs communication, the good reliability, no harmonic, adaptability is good, is fit for the few and not high occasion of real -time requirement of transfer message.

Description

Adopt the Direct Conversion communicator of reversible transducer

Technical field

The utility model relates to Control on Communication field, particularly relates to a kind of Direct Conversion communicator adopting reversible transducer.

Background technology

Application of power field and need the electric power system application of simple transmitting control information out of doors, as applications such as LED street lamp, Tunnel Lamp or other conventional lamp, because supply line is comparatively far away and there is many uncertain factors, generally by mains electricity, the power supply in light fixture is powered, and undertaken communicating and controlling by independent communicator or circuit.Such as during LED street lamp application, need to regulate every brightness to street lamp in several hours, i.e. so-called light modulation, which, owing to realizing secondary energy-saving, has great economy and social effect.Brightness adjustment control mode mainly contains four classes: the control mode (as: 0-10V analog voltage control/PWM discrete control/RS-485 digital communication controls) of being carried out analog or digital by independent light modulation line; Light modulation and control mode is carried out, as Zigbee communication and control by radio communication; Do not need independent circuit and carried out the mode that communicates by power line, as PLC power line carrier, PLC; Timing controlled is carried out by the timer of lamp interior; These communication be in fact all to light fixture inside power supply communicate and control.

Realize simple by the control mode technology of independent light modulation line, can realize controlling together a certain group of lamp, namely divide into groups to control, the light modulation line of a such as 0-10V can control the lamp of nearly more than 200, but when engineer applied especially reconstruction of old circuit time to there is construction wiring difficult, wiring distance is far away, the drawback that wire rod cost is high, and the poor ability of the anti-induced lightening interference of light modulation circuit, reliability is not high.PLC power line carrier, PLC mode: at present by each power supply (namely on every bar lamp) install power line carrier, PLC module additional and single-lamp controller realizes communicating and controlling functions, advantage is that transferable semaphore is very large, signal bi-directional, transmission speed is fast, signal is transmitted by Alternating Current Power Supply line, without the need to wiring of again constructing, without unnecessary wire rod cost; But single-lamp controller cost is high and complicated, signal amplitude is too little, is easily disturbed, and communication reliability is low, and when light fixture quantity is more, single-lamp controller quantity is many too, and total cost is very high.If power line carrier, PLC is integrated into inside power supply, not only there is power carrier chip and the high problem of coupling solutions decoding circuit cost, also can there is the problem that power line carrier, PLC frequency overlaps with Switching Power Supply internal operating frequencies height and meeting is disturbed, the EMI electromagnetic compatibility problem brought is difficult to process, design difficulty is high, not yet has the application of actual product batch so far.There is the problem that cost is high, communication is unstable, communication distance is short in radio communication (as Zigbee), also needs additional wireless communication device and antenna on lamp.If radio communication be integrated in power supply, because outdoor power system is with water proof type aluminum hull, an antenna must be stretched out from aluminum hull, waterproof and configuration aspects difficulty are large, cost is also high.The common feature of three is the material or device that all need fringe cost higher.Timing dimming: timer is started working when power supply electrifying, after the time period of setting, namely the electric current of power source internal is adjusted to reach required brightness, advantage is that cost is very low, does not need external wire rod, controller etc., but due to PERCOM peripheral communication cannot be followed, once setting timing strategies, can not change, therefore be not suitable for the larger street lamp application of evening hours difference in length in summer in winter, be also not suitable for the application such as Tunnel Lamp.The most crucial demand of engineer applied is the secondary energy-saving based on light modulation, and this demand only need unify adjustment (grouping controls) to some section or certain group lamp, does not need to control one by one single lamp; During light modulation, semaphore is very little, only need send simple light modulation percentage signal; Dimming interval is long, generally every adjustment in several hours once; Therefore the demand of dimmer application is: semaphore is minimum, signal transmission number of times is few, need adjustment time just need communication, can customize in advance light modulation Time controlling schema and communication in write-once to power source internal memory, do not need single lamp control and only need divide into groups control; In above-mentioned four kinds of modes, the Method compare being undertaken controlling by light modulation line meets light modulation demand, and plc communication and radio communication greatly exceed actual demand, and timing dimming can not meet the demand of communication adjustment.

Utility model content

In order to solve the problem, the utility model proposes a kind of Direct Conversion communicator adopting reversible transducer, realize simple and reliable, cost is low, and volume is little, changeable, good reliability, and without harmonic wave, adaptability is good, and extends to other field.

Technical solutions of the utility model are: a kind of Direct Conversion communicator adopting reversible transducer, comprise three phase mains, be connected to the voltage conversion circuit of three-phase power output end and be connected to multiple load power sources of voltage conversion circuit output, described voltage conversion circuit comprises controller, voltage transformation module, first bidirectional switch unit, second bidirectional switch unit, 3rd bidirectional switch unit, the control end connection control device of the first bidirectional switch unit, the input of the first bidirectional switch unit connects three outputs of three phase mains, the output of the first bidirectional switch unit connects voltage transformation module first input end, the control end connection control device of described second bidirectional switch unit, the input of the second bidirectional switch unit connects the second output of voltage transformation module, the output of the second bidirectional switch unit connects load power source input, the control end connection control device of described 3rd bidirectional switch unit, the input of the 3rd bidirectional switch unit connects three-phase power output end, the output of the 3rd bidirectional switch unit connects load power source input, the output of described controller connects the second input of voltage transformation module, first output head grounding of described voltage transformation module, the digit chip being connected to voltage conversion circuit output is provided with in described load power source.

Preferably, the bidirectional switch number that described first bidirectional switch unit, the second bidirectional switch unit, the 3rd bidirectional switch unit comprise is 1 or 2 or 3.

Preferably, described voltage transformation module comprises 1 or 2 or 3 voltage conversion devices, the number of voltage conversion device is identical with the bidirectional switch number included by the first bidirectional switch unit, and the input of voltage conversion device connects the output of the bidirectional switch included by the first bidirectional switch unit respectively.

Preferably, described voltage conversion device is two-way Buck-Boost circuit or two-way Buck circuit or two-way Boost circuit.

Preferably, the digit chip being connected to voltage conversion circuit output is provided with in described load power source.

Adopt a control method for the Direct Conversion communicator of reversible transducer, said method comprising the steps of:

1) switch controlling device controls the conducting of bidirectional switch, makes bidirectional switch with certain cycle alternation, or complementary ON operation, or partial periodicity conducting mating part cycle not ON operation, and output voltage waveforms is to voltage conversion device;

2) voltage conversion device exports to load power source after processing further voltage waveform;

3) different wave that voltage conversion device output exports is defined;

4) after load power source receives alternating current voltage waveform, the digit chip of its inside by waveform decoder or storage, the then work of control load.

The beneficial effects of the utility model are: by the ac power supply line control end communicator added based on voltage conversion device being reached the object of simple communication in the utility model.After power supply control end adds the communicator based on bidirectional switch, can control to transmit simulation or digital information to the communicator based on bidirectional switch by controller, mains side (or furtherly light fixture side) can be undertaken sampling and decoding or store by the digit chip such as built-in single-chip microcomputer, MCU, DSP, response limiting instruction.Each power supply can arrange grouping or set address separately simultaneously, realizes point-to-point control and grouping control.The digit chip of power source internal realizes simple, and cost is low; Simultaneously owing to being communicated by power line, signal amplitude is large and then communication is stable, without redundant wire cost, be applicable to transmitting less data volume, be applicable to low frequency communication, be applicable to grouping and control, be applicable to three phase supply outdoor lighting transformation and transformation after secondary energy-saving, also be applicable to new projects' secondary energy-saving application and other field application, overall cost is minimum, economic benefit highly significant.The utility model volume is little, only just works when needs communication, good reliability, and without harmonic wave, adaptability is good, and applicable transmission of information seldom and the not high occasion of requirement of real-time.

Accompanying drawing explanation

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.

Fig. 1 is the circuit theory diagrams of the utility model embodiment one;

Fig. 2 is the preferred circuit theory diagrams of the utility model embodiment one;

Fig. 3 is the circuit theory diagrams that in the voltage conversion device of the utility model embodiment one, bidirectional switch replaces with metal-oxide-semiconductor;

Fig. 4 is the circuit theory diagrams of the utility model embodiment one voltage conversion device;

Fig. 5 is the optional voltage conversion device circuit theory diagrams of the utility model embodiment one;

Fig. 6 be the utility model embodiment one the first be defined as the output waveform figure of numeral " 1 ";

Fig. 7 be the utility model embodiment one the first be defined as the output waveform figure of digital " 0 ";

Fig. 8 is the utility model embodiment one the second definition mode;

Fig. 9 is the circuit theory diagrams of the utility model embodiment two;

Figure 10 is the circuit theory diagrams of bidirectional switch replaceable components in the utility model.

Embodiment

Below in conjunction with accompanying drawing, the technical solution of the utility model is further described, but the utility model is not limited to these embodiments.

A kind of Direct Conversion communicator utilizing reversible transducer to realize, comprise three phase mains, be connected to the voltage conversion circuit of three-phase power output end and be connected to multiple load power sources of voltage conversion circuit output, described voltage conversion circuit comprises controller, voltage transformation module, first bidirectional switch unit, second bidirectional switch unit, 3rd bidirectional switch unit, the control end connection control device of the first bidirectional switch unit, the input of the first bidirectional switch unit connects three outputs of three phase mains, the output of the first bidirectional switch unit connects voltage transformation module first input end, the control end connection control device of described second bidirectional switch unit, the input of the second bidirectional switch unit connects the second output of voltage transformation module, the output of the second bidirectional switch unit connects load power source input, the control end connection control device of described 3rd bidirectional switch unit, the input of the 3rd bidirectional switch unit connects three-phase power output end, the output of the 3rd bidirectional switch unit connects load power source input, the output of described controller connects the second input of voltage transformation module, first output head grounding of described voltage transformation module, the digit chip being connected to voltage conversion circuit output is provided with in described load power source.

Preferably, the bidirectional switch number that described first bidirectional switch unit, the second bidirectional switch unit, the 3rd bidirectional switch unit comprise is 1 or 2 or 3.

Preferably, described voltage transformation module comprises 1 or 2 or 3 voltage conversion devices, the number of voltage conversion device is identical with the bidirectional switch number included by the first bidirectional switch unit, and the input of voltage conversion device connects the output of the bidirectional switch included by the first bidirectional switch unit respectively.

Preferably, described voltage conversion device is two-way Buck-Boost circuit or two-way Buck circuit or two-way Boost circuit.

Preferably, the digit chip being connected to voltage conversion circuit output is provided with in described load power source.

Adopt a Direct Conversion communicator for reversible transducer, said method comprising the steps of:

1) switch controlling device controls the conducting of bidirectional switch, makes bidirectional switch with certain cycle alternation, or complementary ON operation, or partial periodicity conducting mating part cycle not ON operation, and output voltage waveforms is to voltage conversion device;

2) voltage conversion device exports to load power source after processing further voltage waveform;

3) different wave that voltage conversion device output exports is defined;

4) after load power source receives alternating current voltage waveform, the digit chip of its inside by waveform decoder or storage, the then work of control load.Be further elaborated with regard to embodiment a pair the utility model below, only in order to illustrate but not limit as this kind of form.

Embodiment one

By reference to the accompanying drawings 1, a kind of Direct Conversion communicator adopting reversible transducer, comprise three phase mains, be connected to the voltage conversion circuit of three-phase power output end and be connected to multiple load power sources of voltage conversion circuit output, described voltage conversion circuit comprises controller, voltage transformation module, first bidirectional switch unit, second bidirectional switch unit, 3rd bidirectional switch unit, the control end connection control device of the first bidirectional switch unit, the input of the first bidirectional switch unit connects three outputs of three phase mains, the output of the first bidirectional switch unit connects voltage transformation module first input end, the control end connection control device of described second bidirectional switch unit, the input of the second bidirectional switch unit connects the second output of voltage transformation module, the output of the second bidirectional switch unit connects load power source input, the control end connection control device of described 3rd bidirectional switch unit, the input of the 3rd bidirectional switch unit connects three-phase power output end, the output of the 3rd bidirectional switch unit connects load power source input, the output of described controller connects the second input of voltage transformation module, first output head grounding of described voltage transformation module, the digit chip being connected to voltage conversion circuit output is provided with in described load power source.

3 biswitches that described first bidirectional switch unit, the second bidirectional switch unit, the 3rd bidirectional switch unit comprise.

By reference to the accompanying drawings 2, described voltage conversion device is two-way Buck-Boost circuit or two-way Buck circuit or two-way Boost circuit.

The control method of embodiment one is:

When each load power source being connected to three-phase power output end does not need communication, bidirectional switch S1, S2, S3 conducting, bidirectional switch S4, S5, S6, S7, S8, S9 turn off, and now do not have difference with general power supply.When load power source needs communication, bidirectional switch S1, S2, S3 one of them or all turn off, and bidirectional switch S4, S5, S6, S7, S8, S9 is according to certain logic conducting, such as A phase is communicated, then (bidirectional switch S1 turns off in now bidirectional switch S4 and S7 conducting, bidirectional switch S2, S3 conducting), by two-way Buck-Boost circuit access A phase, now two-way Buck-Boost circuit exports corresponding waveform according to the rule that communication protocol customizes, in A phase, the control chip of load power source inside can detect the waveform that two-way Buck-Boost circuit exports and decode and identify the signal of communication wherein comprised.

By reference to the accompanying drawings 3, wherein a kind of communication waveforms and communication protocol can define according to mode below: the AC sine wave shown in definition Fig. 6 is numeral 1, two half-sinusoids after rectification shown in Fig. 7 are numeral 0, then digital signal can be changed into Fig. 6, waveform combination shown in Fig. 7, is delivered to mains side by signal by ac power supply line with this.The chip of A phase load on-chip power to above-mentioned waveform decoder, can identify and its communication digital signal comprised perform corresponding instruction.By reference to the accompanying drawings 4, from the characteristic of two-way Buck-Boost circuit, its input voltage, output voltage polarity are contrary.In other words, when input voltage is sinusoidal wave negative half-wave time, its output voltage is sinusoidal wave positive half wave.Now only need can realize communication function according to strategy below: communicate into digital 1 time, metal-oxide-semiconductor Q1, Q2, Q3, Q4 conducting always, do not need the inductance in Buck-Boost circuit, electric capacity to participate in switch operating, A phase voltage is directly delivered to load power source side; When communication is digital 0, at the positive half period of input voltage half-sinusoid, metal-oxide-semiconductor Q1, Q2, Q3, Q4 conducting always, and at the negative half-cycle of input voltage half-sinusoid, metal-oxide-semiconductor Q1, Q2, Q3, Q4 are together with inductance L 1, and electric capacity C1 carries out work according to the operating characteristic of Buck-Boost circuit, realizing negative half-cycle photovoltaic conversion is positive half period voltage, and input current follows input voltage, realize input harmonics under any condition little, the turnover characteristic of output voltage.Meanwhile, adopt the above-mentioned communication plan of two-way Buck-Boost circuit known, when transmission 0 and 1 two bit position digital signals, Buck-Boost circuit only need work within 1/4 time, can reduce design cost, promotes reliability.When B phase, C phase power supply need to communicate, working method is similar.

By reference to the accompanying drawings 5, similar communication mode can expand to two-way Buck, two-way Boost situation: two kinds that are changed in Fig. 5 by Fig. 4 when the voltage conversion device in Fig. 1 topological time, from the characteristic of two-way Buck, two-way boost, they can export sinusoidal voltage, two-way Buck output voltage amplitude is lower than input voltage, and two-way Boost output voltage amplitude is higher than input voltage.By reference to the accompanying drawings 5 and 8, if according to the definition shown in Fig. 5, be defined as 1 time voltage magnitude is high, time voltage magnitude is low, be defined as 0, then can form digital communication signal equally.This digital communication signal at least based on power frequency one-period, but is not limited to above-mentioned definition.

The bidirectional switch number of the first bidirectional switch unit, the second bidirectional switch unit, the 3rd bidirectional switch unit can not be identical.Such as: when the first bidirectional switch unit is 1 bidirectional switch, keep second, third bidirectional switch unit to be 3, also can realize communication.When number is inconsistent, control mode is distinguished to some extent: in such as Fig. 1, the input of voltage conversion device only meets the bidirectional switch S7 of A phase in three phase mains, and there is no switch two-way switch S 8, S9, now still can realize communication: when needs B communicates, conducting bidirectional switch S7, voltage conversion device works, its output voltage is relevant to A phase voltage, be set to Vx, then now only need according to certain sequential switch dual to switch S 2 and S5, B phase voltage Vb and Vx alternately can be supplied the N number of load power source of B phase, due to differences such as switching sequences, different waveforms can be formed, form communication on this basis.

Be further elaborated with regard to embodiment two pairs of the utility model below, only in order to illustrate but not limit as this kind of form.

Embodiment two

By reference to the accompanying drawings 9, a kind of Direct Conversion communicator adopting reversible transducer, comprise three phase mains, be connected to the voltage conversion circuit of three-phase power output end and be connected to multiple load power sources of voltage conversion circuit output, described voltage conversion circuit comprises controller, voltage transformation module, first bidirectional switch unit, second bidirectional switch unit, 3rd bidirectional switch unit, the control end connection control device of the first bidirectional switch unit, the input of the first bidirectional switch unit connects three outputs of three phase mains, the output of the first bidirectional switch unit connects voltage transformation module first input end, the control end connection control device of described second bidirectional switch unit, the input of the second bidirectional switch unit connects the second output of voltage transformation module, the output of the second bidirectional switch unit connects load power source input, the control end connection control device of described 3rd bidirectional switch unit, the input of the 3rd bidirectional switch unit connects three-phase power output end, the output of the 3rd bidirectional switch unit connects load power source input, the output of described controller connects the second input of voltage transformation module, first output head grounding of described voltage transformation module, the digit chip being connected to voltage conversion circuit output is provided with in described load power source.

3 biswitches that described first bidirectional switch unit, the second bidirectional switch unit, the 3rd bidirectional switch unit comprise.

Described voltage transformation module comprises 3 voltage conversion devices, and the input of voltage conversion device connects the output of the bidirectional switch included by the first bidirectional switch unit respectively.

In embodiment two, three voltage conversion devices control the bidirectional switch that three-phase power output end connects respectively, and its working method is identical with embodiment one.

By reference to the accompanying drawings 10, in above-described embodiment, MOSFET pipe that is that bidirectional switch comprises two Opposite direction connections respectively or that form two-way admittance form, or IGBT or diode, or triode, or transistor, or thyristor, or relay, or contactor, or air switch.

Specific embodiment described herein is only to the explanation for example of the utility model spirit.The utility model person of ordinary skill in the field can make various amendment or supplements or adopt similar mode to substitute to described specific embodiment, but can't depart from spirit of the present utility model or surmount the scope that appended claims defines.

Claims (4)

1. one kind adopts the Direct Conversion communicator of reversible transducer, comprise three phase mains, be connected to the voltage conversion circuit of three-phase power output end and be connected to multiple load power sources of voltage conversion circuit output, it is characterized in that: described voltage conversion circuit comprises controller, voltage transformation module, first bidirectional switch unit, second bidirectional switch unit, 3rd bidirectional switch unit, the control end connection control device of the first bidirectional switch unit, the input of the first bidirectional switch unit connects three outputs of three phase mains, the output of the first bidirectional switch unit connects voltage transformation module first input end, the control end connection control device of described second bidirectional switch unit, the input of the second bidirectional switch unit connects the second output of voltage transformation module, the output of the second bidirectional switch unit connects load power source input, the control end connection control device of described 3rd bidirectional switch unit, the input of the 3rd bidirectional switch unit connects three-phase power output end, the output of the 3rd bidirectional switch unit connects load power source input, the output of described controller connects the second input of voltage transformation module, first output head grounding of described voltage transformation module, the digit chip being connected to voltage conversion circuit output is provided with in described load power source.

2. the Direct Conversion communicator of employing reversible transducer according to claim 1, is characterized in that: the bidirectional switch number that described first bidirectional switch unit, the second bidirectional switch unit, the 3rd bidirectional switch unit comprise is 1 or 2 or 3.

3. the Direct Conversion communicator of employing reversible transducer according to claim 2, it is characterized in that: described voltage transformation module comprises 1 or 2 or 3 voltage conversion devices, the number of voltage conversion device is identical with the bidirectional switch number included by the first bidirectional switch unit, and the input of voltage conversion device connects the output of the bidirectional switch included by the first bidirectional switch unit respectively.

4. the Direct Conversion communicator of the employing reversible transducer according to claim 1 or 3, is characterized in that: described voltage conversion device is two-way Buck-Boost circuit or two-way Buck circuit or two-way Boost circuit.