CN103778774A

CN103778774A - Remote controller and electronic ballast

Info

Publication number: CN103778774A
Application number: CN201310549641.8A
Authority: CN
Inventors: 庄毅民; 杨志; 李仁庆; 王开伟
Original assignee: Fujian Raynen Technology Co Ltd
Current assignee: Fujian Raynen Technology Co Ltd
Priority date: 2013-11-07
Filing date: 2013-11-07
Publication date: 2014-05-07
Anticipated expiration: 2033-11-07
Also published as: CN103778774B

Abstract

The invention provides a remote controller and an electronic ballast. The remote controller comprises a man-machine interaction circuit, a control circuit and a transmitting circuit, wherein the man-machine interaction circuit is used for responding a first operation of a user to generate a first control signal; the control circuit is used for responding the first control signal to generate a remote control message, and the remote control message includes a first remote control message comprising at least two preset commands, or at least two second remote control messages of which each comprises a preset command; the transmitting circuit is used for transmitting the remote control message/the remote control messages to an external receiving terminal to enable the external receiving terminal to respond the at least two preset commands in the remote control message/the remote control messages. Through the technical scheme, at least two commands can be transmitted by one operation of the user, so that convenience is brought to the user in the operation.

Description

A kind of telepilot and electric ballast

Technical field

The present invention relates to telecontrol engineering field, particularly relate to a kind of telepilot and electric ballast.

Background technology

At present, telepilot, because it is simple to operate, antijamming capability is strong, has been applied to lighting field.User sends remote control message by telepilot to short-range electric ballast, manipulates this electric ballast to realize short distance, and then controls the duty of the lamp of this electric ballast connection.Along with the development of electric ballast, the function that electric ballast possesses is also more and more, for example, and to arranging of power, mode of operation, lighting hours etc.Conventionally, when user arranges electric ballast, often need to carry out multiple operation, as power, the mode of operation of electric ballast are set simultaneously simultaneously.

But, what existing telepilot adopted generally is the mode that simple function item sends, be that telepilot can only send correspondence at every turn a command information of a function items is set, send the function of many command informations of corresponding multiple function items respectively and do not have simultaneously.Therefore, when user need to carry out multiple operation to electric ballast simultaneously, can only arrange a function items, and send to electric ballast after the command information of this function items, carry out again the setting to the next function items of electric ballast, bring great inconvenience to user.

Summary of the invention

The technical matters that the present invention mainly solves is to provide a kind of telepilot and electric ballast, can realize user's single job and send at least two instructions, in operation, has brought facility to user.

For solving the problems of the technologies described above, the present invention adopts a kind of technical scheme: a kind of telepilot is provided, comprise man-machine interaction circuit, control circuit and radiating circuit, wherein, described man-machine interaction circuit is used for responding user first and operates and produce the first control signal, described control circuit is used for responding described the first control signal and produces remote control message, wherein, described remote control message is a first remote control message that comprises at least two preset instructions, or be at least two the second remote control message that comprise respectively a preset instructions, described radiating circuit is for sending to outside receiving terminal by described remote control message, so that described outside receiving terminal responds at least two preset instructions in described remote control message.

Wherein, described man-machine interaction circuit also operates and produces the second control signal for responding user second, described control circuit also produces a described second remote control message for responding described the second control signal, described radiating circuit is for sending to outside receiving terminal by described the second remote control message, so that described outside receiving terminal responds the preset instructions in described the second remote control message.

Wherein, described man-machine interaction circuit comprises the first button, the second button, and described first is operating as and presses described the first button, and described second is operating as and presses described the second button.

Wherein, described first and second remote control message comprises checking data, and wherein, described checking data is for the preset instructions of the first or second remote control message described in verification.

Wherein, described man-machine interaction circuit also produces the 3rd control signal for responding user's the 3rd operation, and described control circuit also obtains the instruction of user's input as described preset instructions for responding the 3rd control signal.

Wherein, described remote control message comprises message identifier, and it is the first or second remote control message that described message identifier is used for identifying described remote control message; Described the first remote control message also comprises at least one command identification, and described at least one command identification is separately positioned between the preset instructions in described the first remote control message, for distinguishing different described preset instructions.

Wherein, described outside receiving terminal is electric ballast.

For solving the problems of the technologies described above, the present invention adopts another technical scheme to be: a kind of electric ballast is provided, comprise interconnective receiving circuit and control circuit, the remote control message that described receiving circuit sends for receiving telepilot, wherein, described remote control message is a first remote control message that comprises at least two instructions, or be at least two the second remote control message that comprise respectively an instruction, described control circuit be used for resolving described remote control message so that obtain and carry out described at least two instructions.

Wherein, described remote control message comprises message identifier, it is the first or second remote control message that described message identifier is used for identifying described remote control message, described the first remote control message also comprises at least one command identification, described control circuit is specifically for being judged as the first or second remote control message according to the message identifier in described remote control message, in the time that described remote control message is the first remote control message, distinguish and obtain at least two instructions in described the first remote control message according to described command identification.

Wherein, described first and second remote control message comprises checking data, and described control circuit also, for according to described checking data, carries out verification to the instruction in the described first or second remote control message, if verification is passed through, carries out described instruction.

Be different from prior art, the present invention is in the time that user carries out the first operation, the control circuit of telepilot is packaged at least two preset instructions in one or more of remote control message voluntarily, to send to outside receiving terminal by radiating circuit, be the transmission that single job telepilot is realized multiple instructions, make receiving terminal carry out at least two instructions according to this remote control message, the receipts that achieve a butt joint terminal is once carried out multinomial setting, and without multi-pass operations, in operation, brought facility to user.

Accompanying drawing explanation

Fig. 1 is the structural representation of telepilot one embodiment of the present invention;

Fig. 2 is the circuit diagram of the radiating circuit shown in Fig. 1;

Fig. 3 is the first structural representation of the remote control message of the telepilot transmission shown in Fig. 1;

Fig. 4 is the second structural representation of the remote control message of the telepilot transmission shown in Fig. 1;

Fig. 5 is the structural representation of another embodiment of telepilot of the present invention;

Fig. 6 is the structural representation of electric ballast one embodiment of the present invention.

Embodiment

Describe below in conjunction with accompanying drawing and concrete embodiment.

Refer to Fig. 1 to 4, Fig. 1 is the structural representation of telepilot one embodiment of the present invention, Fig. 2 is the circuit diagram of the radiating circuit shown in Fig. 1, Fig. 3 is the first structural representation of the remote control message of the telepilot transmission shown in Fig. 1, and Fig. 4 is the second structural representation of the remote control message of the telepilot transmission shown in Fig. 1.In present embodiment, telepilot comprises man-machine interaction circuit 110, control circuit 120 and radiating circuit 130, and wherein, control circuit 120 is connected with man-machine interaction circuit 110 and radiating circuit 130 respectively.Wherein, man-machine interaction circuit 110 and control circuit 120 provide power supply by power module (not shown).

Described man-machine interaction circuit 110 operates and produces the first control signal for responding user first, described control circuit 120 produces remote control message for responding described the first control signal, wherein, described remote control message is a first remote control message (as shown in Figure 3) that comprises at least two preset instructions, or be at least two the second remote control message (as shown in Figure 4) that comprise respectively a preset instructions, described radiating circuit 130 is for sending to outside receiving terminal by described remote control message, as electric ballast, so that described outside receiving terminal responds at least two preset instructions in described remote control message.In present embodiment, telepilot is for sending remote control message to electric ballast, and described preset instructions is the configuration information of output power, programming mode (ratio of electric ballast startup and shutdown time in the time), on time, unused time, mode of operation or inquiry duty to electric ballast.

Particularly, in present embodiment, man-machine interaction circuit 110 comprises the first button 111, man-machine interaction circuit 110 in the time that user once presses the first button 111, produce first by piezoelectric signal and using described first by piezoelectric signal as the first control signal.

Control circuit 120 is detecting that man-machine interaction circuit 110 produces first during by piezoelectric signal, to in this locality, there be at least two preset instructions of mapping relations to be packaged in a first remote control message with described first by piezoelectric signal, or by described at least two preset instructions one by one correspondence be packaged at least two the second remote control message, and make radiating circuit 130 that the first or second remote control message is sent to outside receiving terminal.In present embodiment, radiating circuit 130 be infrared transmitting circuit 130(as shown in Figure 2), control circuit 120 is modulated at remote control message on the carrier wave of 38KHz after remote control message is encoded.The remote control message after modulation is sent to the first port 131 in infrared transmitting circuit 130 by control circuit 120, so that the remote control message after described modulation drives infrared transmitting tube 133 and generates corresponding infrared signal through triode 132, described infrared transmitting tube 133 sends to receiving terminal by remote control message with infrared signal form.

In present embodiment, the first or second remote control message comprises identification division and data division (as shown in Figure 3,4, wherein, arrow in Fig. 3,4 represents the transmission direction of remote control message), described identification division comprises for identifying the message identifier that described remote control message is the first or second remote control message, and described data division comprises the preset instructions that is packaged in this remote control message and for checking the checking data of described preset instructions.Specifically, control circuit 120 carries out verification computing to described preset instructions, as cyclic redundancy check (CRC) code (Cyclic Redundancy Check, be called for short CRC) computing, obtain checking data that should preset instructions, so that receiving terminal determines according to this checking data whether this preset instructions makes mistakes, and in the time makeing mistakes, do not carry out this instruction.In present embodiment remote control message, the length of the checking data of every preset instructions and this preset instructions is fixed, complete director data of preset instructions and checking data composition.In the first remote control message, between every director data, be provided with command identification, for distinguishing different director datas.

For example, it is that regulation output power is 500W by preset instructions corresponding to piezoelectric signal that user sets in advance with first, shutdown after two hours, telepilot is packaged in a first remote control message in above-mentioned two preset instructions and checking data, send to electric ballast, electric ballast receives after this first remote control message, while reading command identification, data division before command identification is as Article 1 preset instructions data, data division after command identification is as Article 2 preset instructions data, and according to the checking data in director data, preset instructions is carried out to verification respectively, if two the equal verification of preset instructions is passed through, electric ballast regulation output power is 500W and after two hours, carries out shutdown.If there is preset instructions verification not pass through, do not carry out preset instructions described in verification.

It should be noted that, identification division also can be separately set in first, second remote control message.Agreement is set between telepilot and receiving terminal: in remote control message, every director data is preset length, mark in using described preset length as remote control message, receiving terminal is in the time judging that described remote control message is greater than preset length, determine that described remote control message is the first remote control message, and be an instruction by the data identification of the every preset length in this first remote control message.

In other embodiments, checking data in the first remote control message also can not corresponding every instruction setting, all preset instructions that control circuit is packaged in the first remote control message need are carried out verification computing, obtain checking data, so that receiving terminal carries out verification according to this checking data to all preset instructions in remote control message, if verification is not passed through, do not carry out all instructions in this remote control message.Further, in the embodiment of the less communication environment of interference, control circuit can not arrange checking data in remote control message yet, therefore checking data in remote control message of the present invention is not done to concrete restriction at this.

In addition, mapping relations between the preset instructions in the present invention and preset instructions and the first or second control signal can be remote manipulator system acquiescence, or set in advance by man-machine interaction circuit by user, as user can select the on time of electric ballast, unused time as the preset instructions corresponding with the first control signal, therefore not as a limitation of the invention at this by man-machine interaction circuit.

Present embodiment is in the time that user only carries out the first operation, control circuit is packaged at least two preset instructions in one or more of remote control message voluntarily, to send to outside receiving terminal by radiating circuit, be that single job telepilot sends when realizing multiple instruction, be different from existing single job and can only send an instruction, present embodiment has realized single job and has sent at least two instructions, the receipts that achieve a butt joint terminal is once carried out multiple setting, and without user's repetitive operation, in operation, bring great convenience.Meanwhile, this instruction is preset instructions, immediately arranges without user, can be set to carry out a key setting by aforesaid operations for some conventional settings, brings great advantage to the user.

Refer to Fig. 5, Fig. 5 is the structural representation of another embodiment of telepilot of the present invention.Present embodiment is better than an embodiment, and man-machine interaction circuit 510 also operates and produce the second control signal for responding user second, and response user the 3rd operates and generation the 3rd control signal.Control circuit 520 also produces and comprises a described second remote control message for responding described the second control signal, so that described the second remote control message is sent to outside receiving terminal by radiating circuit 530, and response the 3rd control signal and the instruction of obtaining user input are as preset instructions.

Particularly, man-machine interaction circuit 510 also comprises the second button 512.Man-machine interaction circuit 510 is in the time that user presses the second button 512, produce second and press piezoelectric signal as the second control signal, control circuit 520 is detecting that man-machine interaction circuit 510 produces second during by piezoelectric signal, to in this locality, there is a preset instructions of mapping relations to be packaged in the second remote control message with second by piezoelectric signal, and by radiating circuit 530, the second remote control message is sent to outside receiving terminal, so that receiving terminal is in the time that user carries out the second operation to telepilot, carry out a corresponding preset instructions, as, the output power of electric ballast is set to 1000W, (from 6 o'clock to 18 o'clock, output power was set to 1000W to be set to classical works pattern, 18 are set to 10W up to 6 o'clock next day shutdown or output power) etc., to realize the quick-setting to electric ballast.

Certainly, in other embodiments, telepilot can arrange multiple the second buttons, the signal of pressing that each the second button produces arranges mapping relations from different preset instructions, so that need not user immediately arrange, the second button that direct control telepilot is different, realizes to receiving terminal and sends a different preset instructions.

Be different from prior art, in present embodiment, telepilot is in the time that user carries out the first operation, send the remote control message that comprises at least two preset instructions to receiving terminal, the receipts that achieve a butt joint terminal is carried out multinomial setting simultaneously, in the time that user carries out the second operation, send the remote control message that comprises a preset instructions to receiving terminal, the receipts that achieve a butt joint terminal is carried out a setting, meets user's different demands.Meanwhile, this instruction is preset instructions, immediately arranges without user, can be set to carry out a key setting by aforesaid operations for some conventional settings, brings great advantage to the user.

In present embodiment, man-machine interaction circuit 510 also comprises the 3rd button 513, and man-machine interaction circuit 510 produces the 3rd by piezoelectric signal in the time that user presses the 3rd button 513, using as the 3rd control signal.Control circuit 520 is detecting that man-machine interaction circuit 510 produces the 3rd during by piezoelectric signal, enters preset mode.Wherein, preset mode comprises the first preset mode and the second preset mode, wherein, the first preset mode is at least two instructions with the first control signal with mapping relations are set, and the second preset mode is for arranging an instruction with the second control signal with mapping relations.Man-machine interaction circuit 510 produces selection signal according to user's respective operations, and control circuit 520 is according to selecting signal to select to carry out above-mentioned wherein a kind of setting.In the time specifically arranging, control circuit 520 obtains instruction that user inputs by man-machine interaction circuit 510 as corresponding preset instructions.

Specifically, instruction carried out to set-up mode be illustrated the first preset mode.Man-machine interaction circuit also comprises the 4th button, the 5th button and display unit.Enter after the first preset mode at control circuit, display unit shows can carry out default function items, for example, and the settings such as the output power of electric ballast, mode of operation, programming mode, switching on and shutting down time.Man-machine interaction circuit produces the 4th by piezoelectric signal in the time that user presses the 4th button, and control circuit is detecting that the described the 4th during by piezoelectric signal, and the function items in mobile display unit is to select this function items.Control circuit obtains instruction that user inputs by man-machine interaction circuit so that this function items is arranged, as by upwards downwards button the size etc. of output power is set.Man-machine interaction circuit produces the 5th by piezoelectric signal in the time that user presses the 5th button, control circuit is detecting that the described the 5th during by piezoelectric signal, the instruction that active user is arranged this function items is as preset instructions, and moves to next function items to arrange.Complete after arranging of to display unit all predeterminable function items user, if control circuit detects that the 5th by piezoelectric signal, preserve the above-mentioned preset instructions of obtaining.It should be noted that, this section of explanation is only that the mode of telepilot preset instructions is given an example, can not serve as the restriction to preset instructions mode of the present invention, in other embodiments, telepilot of the present invention can adopt other predetermined manner, for example, by speech-input instructions etc., therefore in this no limit.

In addition, in above-mentioned embodiment, all button is pressed as the operation to telepilot, but in other embodiments, also can adopt other modes of operation, for example, touching to touch key-press, telepilot is put different angles of inclination or realized above-mentioned different operating by different voice signals, therefore the specific implementation of first, second, third operation to telepilot is not construed as limiting at this.

Refer to Fig. 6, Fig. 6 is the structural formula schematic diagram of electric ballast one embodiment of the present invention.In present embodiment, electric ballast comprises interconnective receiving circuit 610 and control circuit 620.The remote control message that receiving circuit 610 sends for receiving telepilot, wherein, described remote control message is a first remote control message that comprises at least two instructions, or be at least two the second remote control message that comprise respectively an instruction, control circuit 620 for resolve described remote control message so that obtain and carry out described at least two instructions.

In present embodiment, the receiving circuit 610 in present embodiment is infrared receiving circuit 610, and infrared receiving circuit 610 receives the infrared signal that telepilot sends, and the remote control message in infrared signal is carried out to demodulation and decoding.

Particularly, remote control message comprises identification division and data division, described identification division comprises for identifying the message identifier that described remote control message is the first or second remote control message, and described data division comprises the instruction that is packaged in this remote control message and for checking the checking data of described instruction.In present embodiment remote control message, the length of the checking data of every instruction and this instruction is fixed, complete director data of instruction and checking data composition.In the first remote control message, between every director data, be provided with command identification, for distinguishing different director datas.

For example, described remote control message comprises " regulation output power is 500W ", " shutdown after two hours " two director datas and is designated the identification division of the first remote control message.In the time that receiving circuit 610 receives described remote control message, control circuit 620 determines that according to described message identifier this remote control message is the first remote control message, and read the data in message sequentially, in the time reading command identification, data division before command identification is as Article 1 preset instructions data, data division after command identification is as Article 2 preset instructions data, and according to the checking data in director data, preset instructions carried out to verification respectively.In the time that two equal verifications of preset instructions are passed through, control circuit 620 regulation output power are 500W and after two hours, carry out shutdown.Having preset instructions verification obstructed out-of-date, control circuit 620 is not carried out described preset instructions.

It should be noted that, identification division also can be set in first, second remote control message.When director data length in remote control message is default regular length, the control circuit of electric ballast is using described preset length as mark, in the time judging that described remote control message is greater than preset length, determine that described remote control message is the first remote control message, and be an instruction by the data identification of the every preset length in this first remote control message.

In other embodiments, when checking data in the first remote control message also can be correspondence and need be packaged in all preset instructions in the first remote control message and carry out verification computing and obtain, the control circuit of electric ballast carries out verification according to this checking data to all preset instructions in remote control message, obstructed out-of-date in verification, control circuit is not carried out all instructions in this remote control message.Further, checking data is not set in remote control message time, control circuit directly obtains and carries out the instruction in remote control message.

In present embodiment, electric ballast is in the time receiving the remote control message that comprises at least two instructions of telepilot transmission, at least two instructions described in separating according to the tag slot in described remote control message, and at least two instructions described in carrying out, realize the single job to telepilot to user and realized the multinomial setting to electric ballast.

In another embodiment, in the time that the receiving circuit of electric ballast also receives a second remote control message, control circuit carries out verification according to the check data in this second remote control message to the instruction being packaged in message, and in the time that verification is passed through, carries out this instruction., electric ballast of the present invention also can be realized according to the second remote control message of telepilot and carry out individual event setting.

Further, in an embodiment again, electric ballast also comprises stepless knob, described stepless knob is electrically connected with control circuit, described control circuit rotates the instruction producing and determines the speed of rotation of stepless knob according to described stepless knob, and then according to the speed of rotation of described stepless knob, step-less adjustment exports the output power of external light source to, wherein, the rate of change of described output power and the speed of rotation of described stepless knob become to preset the first mapping relations.

Pass through such scheme, telepilot is in the time that user carries out the first operation, the control circuit of telepilot is packaged at least two preset instructions in one or more of remote control message voluntarily, to send to outside receiving terminal by radiating circuit, be the transmission that single job telepilot is realized multiple instructions, make receiving terminal carry out at least two instructions according to this remote control message, the receipts that achieve a butt joint terminal is once carried out multinomial setting, and without multi-pass operations, in operation, brought facility to user.

The foregoing is only embodiments of the invention; not thereby limit the scope of the claims of the present invention; every equivalent structure or conversion of equivalent flow process that utilizes instructions of the present invention and accompanying drawing content to do; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present invention.

Claims

1. a telepilot, is characterized in that, comprises man-machine interaction circuit, control circuit and radiating circuit, wherein,

Described man-machine interaction circuit is used for responding user first and operates and produce the first control signal, described control circuit is used for responding described the first control signal and produces remote control message, wherein, described remote control message is a first remote control message that comprises at least two preset instructions, or be at least two the second remote control message that comprise respectively a preset instructions, described radiating circuit is for sending to outside receiving terminal by described remote control message, so that described outside receiving terminal responds at least two preset instructions in described remote control message.

2. telepilot according to claim 1, it is characterized in that, described man-machine interaction circuit also operates and produces the second control signal for responding user second, described control circuit also produces a described second remote control message for responding described the second control signal, described radiating circuit is for sending to outside receiving terminal by described the second remote control message, so that described outside receiving terminal responds the preset instructions in described the second remote control message.

3. telepilot according to claim 2, is characterized in that, described man-machine interaction circuit comprises the first button, the second button, and described first is operating as and presses described the first button, and described second is operating as and presses described the second button.

4. telepilot according to claim 2, is characterized in that, described first and second remote control message comprises checking data, and wherein, described checking data is for the preset instructions of the first or second remote control message described in verification.

5. telepilot according to claim 2, it is characterized in that, described man-machine interaction circuit also produces the 3rd control signal for responding user's the 3rd operation, and described control circuit also obtains the instruction of user's input as described preset instructions for responding the 3rd control signal.

6. electric ballast according to claim 1, is characterized in that, described remote control message comprises message identifier, and it is the first or second remote control message that described message identifier is used for identifying described remote control message;

Described the first remote control message also comprises at least one command identification, and described at least one command identification is separately positioned between the preset instructions in described the first remote control message, for distinguishing different described preset instructions.

7. telepilot according to claim 1, is characterized in that, described outside receiving terminal is electric ballast.

8. an electric ballast, is characterized in that, comprises interconnective receiving circuit and control circuit,

The remote control message that described receiving circuit sends for receiving telepilot, wherein, described remote control message is a first remote control message that comprises at least two instructions, or be at least two the second remote control message that comprise respectively an instruction, described control circuit be used for resolving described remote control message so that obtain and carry out described at least two instructions.

9. electric ballast according to claim 8, it is characterized in that, described remote control message comprises message identifier, it is the first or second remote control message that described message identifier is used for identifying described remote control message, described the first remote control message also comprises at least one command identification, described control circuit is specifically for being judged as the first or second remote control message according to the message identifier in described remote control message, in the time that described remote control message is the first remote control message, distinguish and obtain at least two instructions in described the first remote control message according to described command identification.

10. electric ballast according to claim 8, it is characterized in that, described first and second remote control message comprises checking data, described control circuit is also for according to described checking data, instruction in the described first or second remote control message is carried out to verification, if verification is passed through, carry out described instruction.