CN104238392A - Remote control power supply device, remote control lamp assembly thereof and code matching method thereof - Google Patents

Abstract

The invention discloses a remote control power supply device, a remote control lamp assembly of the remote control power supply device add a code matching method of the remote control power supply device. The remote control power supply device comprises an RF signal processing module and a power supply driving module. The RF signal processing module is used for receiving RF signals and generating control signals. The power supply driving module is used for providing driving current for loads according to switch signals and the control signals and supplying power to the RF signal processing module. The remote control power supply device further comprises a capacitor. In at least one period of time when the power supply driving module stops supplying power to the RF signal processing module, the capacitor supplies power to the RF signal processing module so as to maintain the work of the RF signal processing module. According to the remote control power supply device, continuous switch of external switches is allowed to be utilized for providing additional code matching signals, and therefore incorrect operations happening in the code matching process are effectively reduced.

Description

Remote circuit device and remote controlled lantern assembly thereof and to code method

Technical field

The present invention relates to wireless remote control technology, relate more specifically to remote circuit device and remote controlled lantern assembly thereof and to code method.

Background technology

For the electronic equipment of such as household electrical appliance, line traffic control and wireless remote control mode can be adopted to control the work of electronic equipment.Wireless remote control does not need extra wiring, and provides facility in life.Wireless remote control not only for the control of televisor, and is widely used for the control of curtain, electric fan, water heater and lamp etc.Thus, wireless remote control has attracting application prospect in Smart Home field.

Wireless remote control can adopt infrared light or radiofrequency signal Bearer Control signal.In Infrared Ray Remote Control Technology, telepilot and controlled device are usually located in same region (such as, room), and separate with the similar controlled device in other regions, therefore, usually do not need the corresponding relation setting up telepilot and controlled device.Compared with Infrared Ray Remote Control Technology, radio frequency (RF) telecontrol engineering have remote control distance far away, can through advantages such as the barriers such as wall, floor.Just because of this, in RF remote-controlled technology, telepilot can control the multiple controlled devices in zones of different (such as, room) simultaneously, therefore needs the corresponding relation setting up telepilot and controlled device.In RF remote-controlled field, the process setting up the corresponding relation of telepilot and controlled device is called code, only needs to operate before use once to code.Telepilot can be avoided to control unexpected controlled device to code.

Usually, in a period of time that the physical switch being designed in controlled device to code process of traditional telepilot and controlled device has just been opened, realized by certain normal function key in remote controller.This operative combination non-to the normal use procedure of code in the probability that occurs very high, be easy to occur that unexpected maloperation causes misleading result.Such as, two under upstairs house different user A and B may buy telepilot and the controlled device of same model.When user A has just opened the physical switch of controlled device, if user B operates corresponding remote control function key, then the controlled device of user A and the telepilot of user B complete code.As a result, the user A controlled device that can not undesirably draw oneself up like that.

Although producer can the corresponding relation of preset telepilot and controlled device, thus saves user to code process, but this will introduce new problem.Due to the particular kind of relationship of telepilot and controlled device, if telepilot is lost or controlled device is damaged, just telepilot and controlled device be must change simultaneously, thus maintenance difficult and the cost increase of product caused.

Therefore, expect to improve user further to the convenience of code operations and reliability.

Summary of the invention

The object of the present invention is to provide a kind of can minimizing to the remote circuit device of maloperation in code process and remote controlled lantern assembly thereof with to code method.

According to a first aspect of the invention, a kind of remote circuit device is provided, comprises: RF signal processing module, for receiving RF signal and producing control signal; And electric power driving module, for providing drive current according to switching signal and control signal to load, and power to RF signal processing module, wherein, described remote circuit device also comprises capacitor, stop at least a period of time of powering to RF signal processing module at electric power driving module, capacitor powers to RF signal processing module the work maintaining RF signal processing module.

Preferably, in described remote circuit device, described RF signal processing module judges continuous print switching manipulation according to switching signal.

Preferably, in described remote circuit device, described RF signal processing module performs the run to code operations according to continuous print switching manipulation.

Preferably, in described remote circuit device, described action comprises: enter code waiting status, at least one sent in identity data and storage identity data.

Preferably, in described remote circuit device, described RF signal processing module comprises: RF module, for receiving the RF signal from telepilot; Demoder, for decoding to RF signal, to obtain the telecommand or identity data that RF signal represents; Nonvolatile memory, for storing identity data; Processor, for producing control signal according to telecommand, and is supplied to electric power driving module, wherein, in code process, and described processor receiving key signal and to switching signal counting, thus judge continuous print switching signal.

Preferably, in described remote circuit device, described RF signal processing module comprises: RF module, for from remote control RF signal, and sends RF signal to telepilot; Demoder, for decoding to RF signal, to obtain the telecommand that RF signal represents; Nonvolatile memory, for storing identity data; Scrambler, for encoding to identity data; Processor, for producing control signal according to telecommand, and is supplied to electric power driving module, wherein, in code process, and described processor receiving key signal and switching signal is counted.

According to a second aspect of the invention, a kind of remote controlled lantern assembly is provided, comprises: lamp; And remote circuit device as above, wherein, described remote circuit device provides drive current according to switching signal and control signal to lamp.

Preferably, in described remote controlled lantern assembly, described remote circuit device and lamp form as one.

Preferably, in described remote controlled lantern assembly, described remote circuit device is built in lamp inside.

Preferably, in described remote controlled lantern assembly, described lamp is be selected from the one in incandescent lamp and LED.

According to a third aspect of the invention we, there is provided a kind of remote circuit device to code method, described remote circuit device comprises RF signal processing module and electric power driving module, described remote circuit device is connected with the switch of outside, describedly comprises code method: perform the continuous switch motion of switch to produce switching signal; Continuous print switching manipulation is judged according to switching signal; And perform the run to code operations according to continuous print switching manipulation, wherein, during switch motion, utilize capacitor to power to maintain the work of RF signal processing module to RF signal processing module.

Preferably, described in code method, described action comprises: enter code waiting status, at least one sent in identity data and storage identity data.

Preferably, described in code method, performing according to continuous print switching manipulation is enter code waiting status to the run of code operations, wherein RF signal processing module wait in predetermined time section user press on telepilot to code function key.

Preferably, described in code method, if in predetermined time section user press on telepilot to code function key, then described code method also to be comprised: telepilot sends identity data and to code instruction; Remote circuit device stores identity data; Point out code success; And return straighforward operation state.

Preferably, described in code method, if in predetermined time section user press on telepilot to code function key, then described code method also to be comprised: telepilot sends code instruction; The identity data prestored is sent to telepilot by remote circuit device; Telepilot stores identity data; Telepilot sends identity data and to code instruction; Remote circuit device by the identity data that prestores compared with the identity data of reception; And return straighforward operation state.

Preferably, described in code method, after remote circuit device is by step compared with the identity data of reception of the identity data that prestores, if the identity data prestored is consistent with the identity data of reception, also comprise: point out code success.

Preferably, described in code method, if in predetermined time section user do not press on telepilot to code function key, then described code method also to be comprised: return straighforward operation state.

Preferably, described in code method, performing the run of code operations according to continuous print switching manipulation is store identity data.

Preferably, described in code method, perform switch continuous switch motion before also comprise: user press on telepilot to code function key, enter code waiting status; And telepilot sends identity data and to code instruction.

Preferably, described in code method, also comprise after storage identity data: point out code success; And return straighforward operation state.

Preferably, described in code method, performing the run of code operations according to continuous print switching manipulation is send identity data.

Preferably, described in code method, perform switch continuous switch motion before also comprise: user press on telepilot to code function key, enter code waiting status; And telepilot sends identity data and to code instruction.

Preferably, described in code method, also comprise after transmission identity data: remote circuit device stores identity data; Point out code success; And return straighforward operation state.

According to the present invention, during the continuous switch motion of external switch, utilize capacitor to maintain the work of the RF signal processing module in remote circuit device, thus still can receive from telepilot to code instruction.Therefore, the present invention can utilize the continuous switch of external switch to provide additional to coded signal, make it possible to according to the run of continuous print switching manipulation execution to code operations, such as: enter code waiting status, at least one action sent in identity data and storage identity data, thus effectively reduce the generation to maloperation in code process.

Accompanying drawing explanation

By referring to the description of accompanying drawing to the embodiment of the present invention, above-mentioned and other objects of the present invention, feature and advantage will be more clear, in the accompanying drawings:

Fig. 1 illustrates a kind of schematic diagram of remote controlled lantern system of routine;

Fig. 2 illustrates the schematic block diagram according to remote controlled lantern system of the present invention;

Fig. 3 illustrates the switching signal sequential chart adopted code method according to the first embodiment of the present invention;

Fig. 4 illustrates the switching signal sequential chart adopted code method according to a second embodiment of the present invention;

Fig. 5 illustrates the schematic block diagram of the RF signal processing module adopted in remote circuit device according to the third embodiment of the invention; And

Fig. 6 illustrates the schematic block diagram of the RF signal processing module adopted in remote circuit device according to a fourth embodiment of the invention.

Embodiment

Hereinafter with reference to accompanying drawing, various embodiment of the present invention is described in more detail.In various figures, identical element adopts same or similar Reference numeral to represent.For the sake of clarity, the various piece in accompanying drawing is not drawn in proportion.

Fig. 1 illustrates a kind of schematic diagram of remote controlled lantern system 1000 of routine.Remote controlled lantern system 1000 comprises remote circuit device 100, telepilot 200, switch 300 and lamp 400.Remote circuit device 100 is connected to external ac power source via switch 300, and alternating current is converted to suitable drive current and be supplied to lamp 400.Lamp 400 is such as being selected from the one in incandescent lamp and LED.

During normal straighforward operation, utilize telepilot 200 to control the action of specific remote circuit device 100, thus control the lighting of lamp 400, extinguish and brightness etc.Switch 300 controls the power supply supply of remote circuit device 100 or disconnects.

When first time uses, telepilot 200 and remote circuit device 100 carry out code, to set up the corresponding relation of the two.In remote controlled lantern system 1000, being usually designed in a period of time that switch 300 just opened code process of telepilot 200 and remote circuit device 100, is realized by certain normal function key in remote controller 200.If in this time period, the corresponding remote control function key of user operation, then telepilot 200 and remote circuit device 100 complete code.

Fig. 2 illustrates the schematic block diagram according to remote controlled lantern system 2000 of the present invention.Similar to the remote controlled lantern system 1000 of routine, remote controlled lantern system 2000 comprises remote circuit device 100, telepilot 200, switch 300 and lamp 400.For brevity, not shown telepilot 200 in fig. 2.Remote circuit device 100 comprises electric power driving module 110, RF signal processing module 120 and capacitor 130.

Electric power driving module 110 is connected to external ac power source via switch 300, and alternating current is converted to suitable drive current and be supplied to lamp 400.In addition, electric power driving module 110 also provides supply voltage via positive electricity polar curve and negative electrode wire to RF signal processing module 120.

But, different from the remote controlled lantern system 1000 of routine, in remote controlled lantern system 2000 of the present invention, the switching signal of RF signal processing module 120 receiving key 300, and switching signal is counted.In addition, capacitor 130 is connected in parallel between positive electricity polar curve and negative electrode wire.

Due to the existence of capacitor 130, after switch 300 is closed, the supply voltage that electric power driving module 110 provides is first to capacitor charging.After of short duration charging complete, RF signal processing module 120 powers on operation.After switch 300 disconnects, within a period of time, capacitor 130 discharges and to power to RF signal processing module 120, makes it continue to run.After capacitor 130 discharge off, RF signal processing module 120 power down disconnects.If the time interval of the continuous on/off operation of switch 300 is no more than capacitor 130 discharge time, then RF signal processing module 120 will maintain powered operation state.

When first time uses, telepilot 200 and remote circuit device 100 carry out code, to set up the corresponding relation of the two.In remote controlled lantern system 2000 of the present invention, the switching signal of RF signal processing module 120 receiving key 300, and switching signal is counted.After the on/off operation of the N continuous time (such as 3 times) of switch 300, enter code waiting status, thus the false triggering that unexpected maloperation causes can be avoided.If the time interval of the continuous on/off operation of switch 300 is no more than capacitor 130 discharge time, then RF signal processing module 120 maintains powered operation state all the time.

During normal straighforward operation, RF signal processing module 120 receives the RF signal that telepilot 200 sends, and RF signal transacting is become control signal.This control signal is supplied to electric power driving module 110.According to control signal, electric power driving module 110 produces suitable drive current, thus controls the lighting of lamp 400, extinguishes and brightness etc.

Fig. 3 illustrates the switching signal sequential chart adopted code method according to the first embodiment of the present invention.In figure 3, t1 represents trip time during continuous switching manipulation, the time that t2 closes when representing continuous switching manipulation, t3 represents the time period entered code waiting status, t1 and t2 should be less than certain time interval (as 500ms), and t3 also should be less than certain time interval (as 3s).

The above-mentioned switching signal of RF signal processing module 120 receiving key 300, and switching signal is counted.In the continuous switching manipulation of switch 300, switch to closure state from off-state, switching signal count value adds 1 at every turn.When switching signal count value is 3, enter code waiting status.Entering in the time period t 3 to code waiting status, RF signal processing module 120 wait for user press on telepilot 200 to code function key.

If entering in the time period t 3 to code waiting status, RF signal processing module 120 receives the control signal to code function key of telepilot 200, then to code success.Lamp 400 is represented code success by 3 flickers.Otherwise if within this time period, RF signal processing module 120 fails to receive the control signal to code function key of telepilot 200, then to code failure, remote circuit device 100 is back to normal straighforward operation state.

Fig. 4 illustrates the switching signal sequential chart adopted code method according to a second embodiment of the present invention.In the diagram, t1 represents trip time during continuous switching manipulation, the time that t2 closes when representing continuous switching manipulation, t3 represents the stand-by period, as lamp end detects that within the stand-by period pass/ON signal of continuous 3 times shown in complete upper figure represents code, t1 and t2 should be less than certain time interval (as 500ms), and t3 also should be less than certain time interval (as 8s).

User press on telepilot 200 to code function key, enter code waiting status.Entering in the time period t 3 to code waiting status, RF signal processing module 120 waits for the continuous switching manipulation of user.

Entering in the time period t 3 to code waiting status, the above-mentioned switching signal of RF signal processing module 120 receiving key 300, and switching signal is counted.In the continuous switching manipulation of switch 300, switch to closure state from off-state, switching signal count value adds 1 at every turn.When switching signal count value is 3.

If entering in the time period t 3 to code waiting status, the number of times that RF signal processing module 120 receives continuous switching manipulation is 3, then to code success.Lamp 400 is represented code success by 3 flickers.Otherwise if within this time period, RF signal processing module 120 fails to receive continuous switching manipulation, or the number of times of switching manipulation is not continuously 3 times, then to code failure, remote circuit device 100 is back to normal straighforward operation state.

Fig. 5 illustrates the schematic block diagram of the RF signal processing module 120 adopted in remote circuit device 100 according to the third embodiment of the invention.RF signal processing module 120 comprises processor 121, nonvolatile memory 122, RF module 125 and demoder 126.

As shown in Figure 5, in RF signal processing module 120, the switching signal of processor 121 receiving key 300, and switching signal is counted.RF module 125 receives the RF signal that telepilot 200 sends.Demoder 126 is decoded to the RF signal from RF module 125, to obtain the telecommand or identity data that RF signal represents.Processor 121 receives telecommand or identity data from demoder 126.Telecommand is processed into control signal by processor 121, makes electric power driving module 110 produce suitable drive current, thus controls the lighting of lamp 400, extinguishes and brightness etc.In addition, the identity data stored in itself and nonvolatile memory 122 in nonvolatile memory 122, or to contrast by processor 121 by Identity data store.

When first time uses, telepilot 200 and remote circuit device 100 carry out code, to set up the corresponding relation of the two.

Switching signal sequential chart shown in Figure 3, if processor 121 receives 3 switching signals from electric power driving module 110, then enters code waiting status.Entering in the time period t 3 to code waiting status, RF signal processing module 120 wait for user press on telepilot 200 to code function key.If user pressed on telepilot 200 to code function key, then telepilot 200 produces and sends identity data and to code instruction.Identity data store from telepilot 200 in nonvolatile memory 122, completes code operations by processor 121.

In switching signal sequential chart shown in Figure 4, user pressed on telepilot 200 to code function key, if user pressed on telepilot 200 to code function key, then telepilot 200 produces and sends identity data and to code instruction, enter code waiting status.Entering in the time period t 3 to code waiting status, processor 121 wait-receiving mode is from the switching signal of electric power driving module 110, if processor 121 receives 3 switching signals from electric power driving module 110 in t3, then processor 121 is by being received from the Identity data store of telepilot 200 in nonvolatile memory 122, completes code operations.

Fig. 6 illustrates the schematic block diagram of the RF signal processing module 120 adopted in remote circuit device 100 according to a fourth embodiment of the invention.RF signal processing module 120 comprises processor 121, nonvolatile memory 122, RF module 125, demoder 126 and scrambler 127.

As shown in Figure 6, in RF signal processing module 120, the switching signal of processor 121 receiving key 300, and switching signal is counted.Identity data is prestored in nonvolatile memory 122.RF module 125 receives the RF signal that telepilot 200 sends.Demoder 126 is decoded to the RF signal from RF module 125, to obtain the telecommand or identity data that RF signal represents.Processor 121 receives telecommand from demoder 126, or the identity data stored in nonvolatile memory 122 is sent to scrambler 127, then generates RF signal via RF module 125, is sent to telepilot 200.Telecommand is processed into control signal by processor 121, makes electric power driving module 110 produce suitable drive current, thus controls the lighting of lamp 400, extinguishes and brightness etc.In addition, processor 121 by identity data with contrast.

When first time uses, telepilot 200 and remote circuit device 100 carry out code, to set up the corresponding relation of the two.

Switching signal sequential chart shown in Figure 3, if processor 121 receives 3 switching signals from electric power driving module 110, then enters code waiting status.Entering in the time period t 3 to code waiting status, RF signal processing module 120 wait for user press on telepilot 200 to code function key.When pressing code function key, telepilot 200 sends code instruction.After RF signal processing module 120 receives code instruction, the identity data be stored in advance in nonvolatile memory 122 is sent to telepilot 200 by processor 121.Telepilot 200 by the Identity data store from RF signal processing module 120 in the nonvolatile memory of self.Then, telepilot 200 sends and terminates code instruction and identity data.After RF signal processing module 120 receives code instruction, the identity data from telepilot 200 compared with the identity data prestored in nonvolatile memory 122, if the two is consistent, then completes code operations by processor 121.

Switching signal sequential chart shown in Figure 4, user pressed on telepilot 200 to code function key, enter code waiting status.To in code waiting status, the switching signal from electric power driving module 110 waited for by processor 121.Entering in the time period t 3 to code waiting status, if processor 121 receives 3 switching signals from electric power driving module 110, the identity data be stored in advance in nonvolatile memory 122 is sent to telepilot 200 by processor 121.Telepilot 200 by the Identity data store from RF signal processing module 120 in the nonvolatile memory of self.Then, telepilot 200 sends and terminates code instruction and identity data.After RF signal processing module 120 receives code instruction, the identity data from telepilot 200 compared with the identity data prestored in nonvolatile memory 122, if the two is consistent, then completes code operations by processor 121.

It should be noted that in the above-described embodiment, although using the load of lamp 400 as remote circuit device 100, the load of remote circuit device 100 is not limited to lamp, can also be curtain, electric fan, water heater etc.In alternate embodiments, remote circuit device 100 can also form as one with lamp 400, is even built in lamp 400 inner, forms remote controlled lantern assembly.In addition, remote circuit device 100 can also form as one with socket, is even built in socket inside, forms remote control socket assembly.Therefore, remote circuit device 100 according to the present invention can independently use, and also can use as a part for electronic equipment.

According to embodiments of the invention as described above, these embodiments do not have all details of detailed descriptionthe, do not limit the specific embodiment that this invention is only described yet.Obviously, according to above description, can make many modifications and variations.This instructions is chosen and is specifically described these embodiments, is to explain principle of the present invention and practical application better, thus makes art technician that the present invention and the amendment on basis of the present invention can be utilized well to use.The scope that protection scope of the present invention should define with the claims in the present invention is as the criterion.

Claims (23)

1. a remote circuit device, comprising:

RF signal processing module, for receiving RF signal and producing control signal; And

Electric power driving module, for providing drive current according to switching signal and control signal to load, and powers to RF signal processing module,

Wherein, described remote circuit device also comprises capacitor, and stop at least a period of time of powering to RF signal processing module at electric power driving module, capacitor powers to RF signal processing module the work maintaining RF signal processing module.

2. remote circuit device according to claim 1, wherein said RF signal processing module judges continuous print switching manipulation according to switching signal.

3. remote circuit device according to claim 2, wherein said RF signal processing module performs the run to code operations according to continuous print switching manipulation.

4. remote circuit device according to claim 3, wherein said action comprises: enter code waiting status, at least one sent in identity data and storage identity data.

5. remote circuit device according to claim 2, wherein said RF signal processing module comprises:

RF module, for receiving the RF signal from telepilot;

Demoder, for decoding to RF signal, to obtain the telecommand or identity data that RF signal represents;

Nonvolatile memory, for storing identity data;

Processor, for producing control signal according to telecommand, and is supplied to electric power driving module,

Wherein, in code process, described processor receiving key signal and to switching signal counting, thus judge continuous print switching signal.

6. remote circuit device according to claim 2, wherein said RF signal processing module comprises:

RF module, for from remote control RF signal, and sends RF signal to telepilot;

Demoder, for decoding to RF signal, to obtain the telecommand that RF signal represents;

Nonvolatile memory, for storing identity data;

Scrambler, for encoding to identity data;

Processor, for producing control signal according to telecommand, and is supplied to electric power driving module,

Wherein, in code process, described processor receiving key signal and switching signal is counted.

7. a remote controlled lantern assembly, comprising:

Lamp; And

Remote circuit device according to any one of claim 1-6,

Wherein, described remote circuit device provides drive current according to switching signal and control signal to lamp.

8. remote controlled lantern assembly according to claim 7, wherein said remote circuit device and lamp form as one.

9. remote controlled lantern assembly according to claim 8, wherein said remote circuit device is built in lamp inside.

10. the remote controlled lantern assembly according to any one of claim 7-9, wherein said lamp is be selected from the one in incandescent lamp and LED.

11. 1 kinds of remote circuit devices to code method, described remote circuit device comprises RF signal processing module and electric power driving module, and described remote circuit device is connected with the switch of outside, describedly comprises code method:

Perform the continuous switch motion of switch to produce switching signal;

Continuous print switching manipulation is judged according to switching signal; And

The run to code operations is performed according to continuous print switching manipulation,

Wherein, during switch motion, capacitor is utilized to power to maintain the work of RF signal processing module to RF signal processing module.

12. is according to claim 11 to code method, and wherein said action comprises: enter code waiting status, at least one sent in identity data and storage identity data.

13. is according to claim 12 to code method, wherein performing according to continuous print switching manipulation is enter code waiting status to the run of code operations, wherein RF signal processing module wait in predetermined time section user press on telepilot to code function key.

14. is according to claim 13 to code method, if in predetermined time section user press on telepilot to code function key, then described code method also to be comprised:

Telepilot sends identity data and to code instruction;

Remote circuit device stores identity data;

Point out code success; And

Return straighforward operation state.

15. is according to claim 13 to code method, if in predetermined time section user press on telepilot to code function key, described code method also to be comprised:

Telepilot sends code instruction;

The identity data prestored is sent to telepilot by remote circuit device;

Telepilot stores identity data;

Telepilot sends identity data and to code instruction;

Remote circuit device by the identity data that prestores compared with the identity data of reception; And

Return straighforward operation state.

16. is according to claim 15 to code method, after remote circuit device is by step compared with the identity data of reception of the identity data that prestores, if the identity data prestored is consistent with the identity data of reception, also comprises:

Point out code success.

17. is according to claim 13 to code method, if in predetermined time section user do not press on telepilot to code function key, described code method also to be comprised:

Return straighforward operation state.

18. is according to claim 12 to code method, and wherein performing the run of code operations according to continuous print switching manipulation is store identity data.

19. is according to claim 18 to code method, also comprised before the continuous switch motion performing switch:

User press on telepilot to code function key, enter code waiting status; And

Telepilot sends identity data and to code instruction.

20. is according to claim 19 to code method, also comprises after storage identity data:

Point out code success; And

Return straighforward operation state.

21. is according to claim 12 to code method, and wherein performing the run of code operations according to continuous print switching manipulation is send identity data.

22. is according to claim 21 to code method, also comprised before the continuous switch motion performing switch:

User press on telepilot to code function key, enter code waiting status; And

Telepilot sends identity data and to code instruction.

23. is according to claim 22 to code method, also comprises after transmission identity data:

Remote circuit device stores identity data;

Point out code success; And

Return straighforward operation state.