CN102932684A - Electronic equipment control method, controller and electronic equipment - Google Patents

Electronic equipment control method, controller and electronic equipment Download PDF

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Publication number
CN102932684A
CN102932684A CN2011102254193A CN201110225419A CN102932684A CN 102932684 A CN102932684 A CN 102932684A CN 2011102254193 A CN2011102254193 A CN 2011102254193A CN 201110225419 A CN201110225419 A CN 201110225419A CN 102932684 A CN102932684 A CN 102932684A
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Prior art keywords
electronic equipment
command code
command
parts
instruction
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CN2011102254193A
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Chinese (zh)
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毛兴中
谢巍
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Lenovo Beijing Ltd
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Lenovo Beijing Ltd
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Priority to CN2011102254193A priority Critical patent/CN102932684A/en
Publication of CN102932684A publication Critical patent/CN102932684A/en
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Abstract

The invention provides an electronic equipment control method, a controller and electronic equipment. The electronic equipment control method comprises the following steps of: detecting a first operation to the controller; responding to the first operation and sequentially obtaining a plurality of command codes; and sending at least one of the plurality of command codes to at least one electronic equipment, wherein the command codes, in the plurality of command codes, which are related to one electronic equipment in at least one electronic equipment are sequentially executed in the electronic equipment. Due to adoption of the electronic equipment control method, control over at least one operation of at least one electronic equipment can be easily implemented by carrying out simple operation on the controller once.

Description

Control method of electronic device, controller and electronic equipment
Technical field
The present invention relates to the control of electronic equipment, and relate more specifically to a kind of control method of electronic device, controller and electronic equipment.
Background technology
At present, TV and set-top box are almost arranged in each family.Generally, TV is equipped with TV remote controller, and set-top box is equipped with set-top box remote controller.Operate for the ease of the user, improving the user utilizes set-top box to watch the experience of cable TV, tend at least part of function of TV remote controller is merged on the set-top box remote controller, thereby realize at least part of function of TV remote controller by set-top box remote controller.For example, " standby " button of TV remote controller is merged on the set-top box remote controller, the buttons such as " standby ", " display mode " of TV remote controller, " information source " are merged on the set-top box remote controller, etc.
Yet, even realize at least part of function of TV remote controller by set-top box remote controller, when the user watches cable television channels, still have inconvenience.Particularly, as example, when the user begins to watch cable television channels, need at least to carry out following operation: television set powers on, set-top box powers on, remote controller is pressed television set " standby " button so that television boot-strap, set-top box " standby " button pressed by remote controller so that " information source " button that set-top-box opening, remote controller are pressed television set with the signal source list, remote controller signal source, the remote controller corresponding with set-top box in signal source list is selected that show television set confirm to the selection of signal source corresponding to set-top box.Through after the aforesaid operations, television set is just real with the signal source of set-top box as television set.Subsequently, the user just can select to wish the cable television program watched.
Power on except television set in the aforesaid operations and set-top box power on be not to be undertaken by remote controller, needing at least remote controller to carry out following steps just can be successfully with the signal source of set-top box as television set: remote controller is pressed television set " standby " button so that television boot-strap, remote controller is pressed set-top box " standby " button so that set-top-box opening, remote controller is pressed television set " information source " button to show the signal source list of television set, remote controller is the signal source corresponding with set-top box in signal source list is selected, remote controller is confirmed the selection to the signal source corresponding with set-top box.This shows, the straighforward operation of remote controller is too loaded down with trivial details, makes the user experience variation.
Therefore, need a kind of control method and the controller that can control expediently the electronic equipment such as television set and set-top box.Correspondingly, also need a kind of electronic equipment that can realize expediently its control.
Summary of the invention
Consider the problems referred to above and proposed the present invention.Can be by a simple operations of controller easily being realized the control at least one operation of at least one equipment according to control method of electronic device of the present invention.
According to an aspect of the present invention, provide a kind of control method of electronic device, having comprised: detected the first operation to controller; Sequentially obtain a plurality of command codes in response to described the first operation; And transmit in described a plurality of command code at least one at least one electronic equipment.Command code relevant with a electronic equipment in described at least one electronic equipment in described a plurality of command code is sequentially carried out in this electronic equipment.
Preferably, in this control method of electronic device, obtain a plurality of command codes in response to described the first operation and comprise: obtain the instruction with described the first operational correspondence; Send described instruction to compiling of instruction parts; And described compiling of instruction parts obtain described a plurality of command code according to described instruction.
Preferably, in this control method of electronic device, at least one that transmits in described a plurality of command code at least one electronic equipment comprises: the order according to described a plurality of command codes sequentially transmits described a plurality of command code, wherein, for each command code in described a plurality of command codes, the electronic equipment relevant with this command code transmits this command code in described at least one electronic equipment.The delivery time interval that is sent between two adjacent command codes of an electronic equipment responds required time of last command code in described two adjacent command codes more than or equal to this electronic equipment.
Preferably, in this control method of electronic device, at least one that transmits in described a plurality of command code at least one electronic equipment comprises: with each command code in a plurality of command codes that obtain respectively its corresponding electronic equipment be associated, transmit respectively command code according to predetermined electronic equipment order to described at least one electronic equipment, wherein, for each electronic equipment in described at least one electronic equipment, sequentially transmit the command code that is associated with this electronic equipment to this electronic equipment continuously, and the command code that is associated with an electronic equipment is stored in the command code memory unit of this electronic equipment.
According to a further aspect in the invention, provide a kind of controller of controlling electronic equipment, having comprised: the operation detection parts, for detection of the first operation to described controller; Command code obtains parts, is used for sequentially obtaining a plurality of command codes in response to described the first operation; And the command code transfer member, be used for transmitting at least one electronic equipment at least one of described a plurality of command codes.Wherein, the command code relevant with a electronic equipment in described at least one electronic equipment sequentially carried out in this electronic equipment in described a plurality of command code.
Preferably, described command code obtains parts and comprises: instruction obtains parts, is used for the instruction of acquisition and described the first operational correspondence; And the compiling of instruction parts, be used for receiving described instruction and obtain the described instruction that parts obtain, and obtain described a plurality of command code according to described instruction.
Preferably, in this controller, described command code transfer member sequentially transmits described a plurality of command code according to the order of described a plurality of command codes, wherein, for each command code in described a plurality of command codes, the electronic equipment relevant with this command code transmits this command code in described at least one electronic equipment.The delivery time interval that is sent between two adjacent command codes of an electronic equipment responds required time of last command code in described two adjacent command codes more than or equal to this electronic equipment.
Preferably, in this controller, described command code transfer member with each command code in a plurality of command codes that obtain respectively its corresponding electronic equipment be associated, and transmit respectively command code according to predetermined electronic equipment order to described at least one electronic equipment, wherein, for each electronic equipment in described at least one electronic equipment, described command code transfer member sequentially transmits the command code that is associated with this electronic equipment to this electronic equipment continuously, and the command code that is associated with an electronic equipment is stored in the command code memory unit of this electronic equipment.
Preferably, described controller comprises the first control section and the second control section that is separated from each other, described the second control section is attached on the described electronic equipment or as the part of described electronic equipment and be integrated in the described electronic equipment, described the first control section comprises that described operation detection parts and described instruction obtain parts, and described the second control section comprises described compiling of instruction parts and described command code transfer member.Described the first control section also comprises: the instruction transfer member is used for sending described instruction to described the second control section.Described the second control section also comprises: the command reception parts are used for receiving described instruction and described instruction being offered described compiling of instruction parts.
Preferably, described controller also comprises: state obtains parts, be used for obtaining the mode of operation of described at least one electronic equipment, wherein, described command code transfer member obtains the mode of operation of described at least one electronic equipment that parts obtain and sequentially transmits command code to described at least one electronic equipment according to described state.
According to another aspect of the invention, provide a kind of electronic equipment, having comprised: command code obtains parts, is used for sequentially obtaining a plurality of command codes; The command code memory unit is used for storing described a plurality of command code; And the command code execution unit, be used for sequentially carrying out at least one of described a plurality of command codes.
Preferably, described command code acquisition parts receive described a plurality of command code from the command code transfer member of controller.
Preferably, described command code obtains parts and comprises: the command reception parts are used for receiving instruction from the instruction transfer member of controller; And the compiling of instruction parts, be used for obtaining described a plurality of command code according to described instruction.
Preferably, described electronic equipment also comprises the command code transfer member, its order according to described a plurality of command codes sequentially transmits command code relevant with described other electronic equipment in described a plurality of command code to other electronic equipment, wherein, the delivery time interval that is sent between two adjacent command codes of an electronic equipment in described other electronic equipment responds required time of last command code in described two adjacent command codes more than or equal to this electronic equipment.
Alternatively, described electronic equipment also comprises the command code transfer member, its with each command code relevant with described other electronic equipment in described a plurality of command codes respectively its corresponding electronic equipment be associated, and transmit respectively the command code relevant with this electronic equipment according to predetermined electronic equipment order to each electronic equipment in other electronic equipment, wherein, for each electronic equipment in described at least one electronic equipment, described command code transfer member sequentially transmits the command code that is associated with this electronic equipment to this electronic equipment continuously, and the command code that is associated with an electronic equipment is stored in the command code memory unit of this electronic equipment.
Preferably, when described electronic equipment start or shutdown, remove the command code of in described command code memory unit, storing.
Preferably, described electronic equipment also comprises: effective order code identification component, be used for the described a plurality of command code identification effective order codes in described command code storage component stores, and wherein, described command code execution unit is only carried out the effective order code of identifying.
Preferably, described electronic equipment also comprises: the state-detection parts, for detection of the mode of operation of described electronic equipment, wherein, described command code execution unit determines whether to carry out the Next Command code according to the mode of operation of described electronic equipment.
Preferably, described electronic equipment also comprises: the status poll parts are used for sending the status poll signal to other electronic equipment; And state acquisition parts, for the mode of operation that obtains other electronic equipment.
Preferably, described electronic equipment also comprises: the state transfer member, be used for transmitting the mode of operation that detects to another electronic equipment or controller, wherein, described another electronic equipment or controller come to transmit command code to described electronic equipment according to the mode of operation of the described electronic equipment that receives.
Description of drawings
Embodiments of the present invention is described in detail in conjunction with the drawings, and above and other objects of the present invention, feature, advantage will become apparent, wherein:
Fig. 1 illustrates the flow chart of the control method of electronic device of one or more embodiment according to the present invention;
Fig. 2 illustrates the flow chart that sequentially obtains the exemplary method of a plurality of command codes among Fig. 1;
Fig. 3 illustrates the schematic block diagram according to controller and the electronic equipment of first embodiment of the invention;
Fig. 4 illustrates the schematic block diagram according to controller and the electronic equipment of second embodiment of the invention;
Fig. 5 illustrates the schematic block diagram according to controller and the electronic equipment of third embodiment of the invention;
Fig. 6 illustrates the schematic block diagram according to controller and the electronic equipment of fourth embodiment of the invention;
Fig. 7 illustrates the schematic block diagram according to controller and the electronic equipment of fifth embodiment of the invention;
Embodiment
Control method of electronic device, controller and electronic equipment according to the embodiment of the invention are described below with reference to accompanying drawings.
At first, with reference to Fig. 1 control method of electronic device 100 according to the embodiment of the invention is described.
Control method of electronic device 100 according to the embodiment of the invention begins at step S105.
At step S110, detect the first operation to controller.This first operation can be a special function keys of pressing in the controller, it also can be a virtual special function keys on the touch screen of controller, it also can be the touch gestures on the touch screen of controller, perhaps even can be the space gesture that can be caught and identify by controller, however the invention is not restricted to this.To sum up, this first operation is actually for the operation that triggers for a series of control commands of at least one electronic equipment that is associated with this controller.
At step S120, sequentially obtain a plurality of command codes in response to described the first operation.As mentioned above, the first operation is for the operation that triggers for a series of control commands of at least one electronic equipment that is associated with this controller.After the first operation that detects controller, sequentially obtain a plurality of command codes, that is, and for a series of control command codes of at least one electronic equipment that is associated with this controller, in order to be used for controlling the operation of described at least one electronic equipment.
In Fig. 2, illustrate the flow chart of the exemplary method that sequentially obtains a plurality of command codes.
At first, at step S1210, obtain the instruction with described the first operational correspondence.Then, at step S1220, send described instruction to compiling of instruction parts.Next, at step S1230, described compiling of instruction parts obtain described a plurality of command code according to described instruction.
As below describing in detail, step S1210-S1230 can carry out in an integrated manipulator, also can carry out in two separating parts of controller.
In addition, as will be understood by the skilled person in the art, the invention is not restricted to this, can in advance described the first operation be made up with a plurality of command codes, and when detecting described the first operation, directly obtain described a plurality of command code.
Return Fig. 1, at step S130, transmit in described a plurality of command code at least one at least one electronic equipment.
As described in detail later, described a plurality of command code may be associated with at least one electronic equipment, can transmit all command codes to each electronic equipment in described at least one electronic equipment, also can transmit command code only associated with it to each electronic equipment in described at least one electronic equipment.
As example, sequentially transmit described a plurality of command code according to the order of described a plurality of command codes, wherein, for each command code in described a plurality of command codes, the electronic equipment relevant with this command code transmits this command code in described at least one electronic equipment.In the case, the delivery time interval that is sent between two adjacent command codes of an electronic equipment responds required time of last command code in described two adjacent command codes more than or equal to this electronic equipment.
Alternatively, the command code that can send to an electronic equipment is sequentially packed, and its concentrated area is sent to this electronic equipment.As example, with each command code in a plurality of command codes that obtain respectively its corresponding electronic equipment be associated, transmit respectively command code according to predetermined electronic equipment order to described at least one electronic equipment.In the case, for each electronic equipment in described at least one electronic equipment, sequentially transmit the command code that is associated with this electronic equipment to this electronic equipment continuously, and the command code that is associated with an electronic equipment is stored in the command code memory unit of this electronic equipment.
As another example, can and send it to described at least one electronic equipment with all command code packings.In the case, carry out the identification of effective order code in each electronic equipment, in order to identify for the effective command code of this electronic equipment, and the effective order code of only identifying is carried out by this electronic equipment.
Then, at step S140, command code relevant with a electronic equipment in described at least one electronic equipment in described a plurality of command codes is sequentially carried out in this electronic equipment.
At last, the control method of electronic device 100 according to the embodiment of the invention finishes at step S199.
Next, controller and the electronic equipment of the first to the 5th embodiment according to the present invention are described with reference to Fig. 3-Fig. 7.
The first embodiment
Figure 3 illustrates according to the controller 3100 of first embodiment of the invention and the schematic block diagram of electronic equipment 3200 and 3300.
Controller 3100 communicates with electronic equipment 3200 and 3300 respectively.This communication can be carried out with wired mode, also can carry out with wireless mode.
Controller 3100 comprises that operation detection parts 3110, command code obtain parts 3120 and command code transfer member 3130.
On the other hand, electronic equipment 3200 comprises that command code obtains parts 3210 and command code execution unit 3220.
Operation detection parts 3110 are for detection of the first operation to described controller.As mentioned above, this first operation is for the operation that triggers for a series of control commands of at least one electronic equipment that is associated with this controller.Can according to practical situations, configure the concrete form of this first operation.
Command code obtains parts 3120 and is used for sequentially obtaining a plurality of command codes in response to described the first operation.As mentioned above, in the situation that in advance with described the first operation and a plurality of command code combinations, when operation detection parts 3110 detected described the first operation, command code obtained parts 3120 and directly obtains described a plurality of command code.
As an alternative, command code acquisition parts 3120 can comprise that instruction obtains parts 3121 and compiling of instruction parts 3122.Instruction obtains the instruction of parts 3121 acquisitions and described the first operational correspondence.Instruction obtains parts 3121 and receives the described instruction that described instruction obtains the parts acquisition, and obtains described a plurality of command code according to described instruction.
Command code transfer member 3130 is used for transmitting at least one electronic equipment at least one of described a plurality of command codes.In the example of Fig. 3, particularly, command code transfer member 3130 sequentially transmits in described a plurality of command code each according to the order of described a plurality of command codes, namely once a command code is sent to electronic equipment associated with it.
Command code obtains parts 3210 and receives the command code that transmits from the command code transfer member 3130 of controller 3100, and the command code that receives is passed to command code execution unit 3220.
Command code execution unit 3220 is carried out the command code that is delivered to it.
In the situation that example shown in Figure 3, the delivery time interval that is sent between two adjacent command codes of an electronic equipment responds required time of last command code in described two adjacent command codes more than or equal to this electronic equipment.
This delivery time interval can be determined according to the practical operation of electronic equipment when the described controller of configuration.Particularly, when described the first operation of configuration, the actual mechanical process that the controller record is complete, thereby the order of the operation of each command code of record generation and the time interval between adjacent twice operation.This time interval can be defined as " Fixed Time Interval ", and according to actual conditions, the time interval between per twice adjacent operation can be identical, also can be different.
Alternatively, this delivery time interval can be arranged by the user.The user can rule of thumb define the time interval between adjacent twice operation, and this time interval can be obtained by rough estimate, and should be more than or equal to the required time of front once-through operation in this electronic equipment response adjacent twice operation associated with it.This time interval also can be defined as " Fixed Time Interval ", and according to actual conditions, the time interval between per twice adjacent operation can be identical, also can be different.
Alternatively, this delivery time interval can also be determined according to the executing state that electronic equipment responds last command code.In the case, the state that can arrange in controller 3100 obtains parts 3140, and this state obtains parts 3140 receive the last command code of these electronic equipment 3200 responses from electronic equipment 3200 executing state.Correspondingly, electronic equipment 3200 comprises state-detection parts 3230 and state transfer member 3240, these state-detection parts 3230 detect the executing state of the command code of this electronic equipment 3200, and state transfer member 3240 obtains parts 3140 with the state that the executing state that detects sends in the controller 3100.
Alternatively, status poll parts 3150 can also be set in controller 3100, these status poll parts 3150 send the status poll signal to the state-detection parts 3230 of electronic equipment 3200.State-detection parts 3230 detect the executing state of the command code of this electronic equipment 3200 after receiving this status poll signal.
Alternatively, this delivery time interval can also be determined according to the current state of electronic equipment.In the case, the state that can arrange in controller obtains parts 3140, and this state obtains the current state that parts 3140 can be finished detected electrons equipment fully initiatively, independently, such as open state, off-mode etc.For example, can utilize cam device to obtain parts 3140 as this state, in order to utilize image-recognizing method to realize the state-detection such as open state, off-mode.
In addition, the structure of the structure of the electronic equipment shown in Fig. 3 3300 and electronic equipment 3200 is same or similar.
Although in Fig. 3, only show two electronic equipments 3200 and 3300, yet the invention is not restricted to this, controller 3100 can with communicate more than two electronic equipments.
The second embodiment
Figure 4 illustrates according to the controller 4100 of second embodiment of the invention and the schematic block diagram of electronic equipment 4200 and 4300.
Controller 4100 communicates with electronic equipment 4200 and 4300 respectively.This communication can be carried out with wired mode, also can carry out with wireless mode.
Controller 4100 comprises that operation detection parts 4110, command code obtain parts 4120 and command code transfer member 4130.
Electronic equipment 4200 comprises that command code obtains parts 4210, command code memory unit 4220 and command code execution unit 4230.
Operation detection parts 4110 are for detection of the first operation to described controller.As mentioned above, this first operation is for the operation that triggers for a series of control commands of at least one electronic equipment that is associated with this controller.Can according to practical situations, configure the concrete form of this first operation.
Command code obtains parts 4120 and is used for sequentially obtaining a plurality of command codes in response to described the first operation.As mentioned above, in the situation that in advance with described the first operation and a plurality of command code combinations, when operation detection parts 4110 detected described the first operation, command code obtained parts 4120 and directly obtains described a plurality of command code.
As an alternative, command code acquisition parts 4120 can comprise that instruction obtains parts 4121 and compiling of instruction parts 4122.Instruction obtains the instruction of parts 4121 acquisitions and described the first operational correspondence.Instruction obtains parts 4121 and receives the described instruction that described instruction obtains the parts acquisition, and obtains described a plurality of command code according to described instruction.
Command code transfer member 4130 is used for transmitting at least one electronic equipment at least one of described a plurality of command codes.
In the example of Fig. 4, particularly, command code transfer member 4130 at first with each command code in a plurality of command codes that obtain respectively its corresponding electronic equipment be associated, then, transmit respectively command code according to predetermined electronic equipment order to described at least one electronic equipment, in the case, each electronic equipment in described at least one electronic equipment sequentially transmits the command code that is associated with this electronic equipment to this electronic equipment continuously.
Command code obtains parts 4210 and receives the command code that transmits from the command code transfer member 4130 of controller 4100, and the command code that receives is delivered to command code memory unit 4220.
Then, command code memory unit 4220 is sent to command code execution unit 4230 with the command code of storing seriatim, and command code execution unit 4230 is carried out the command code that is delivered to it.
In the case, be sent to delivery time interval between two adjacent command codes of command code execution unit 4230 more than or equal to the required time of last command code in described two the adjacent command codes of these command code execution unit 4230 responses.
This delivery time interval can be arranged by the user.The user can rule of thumb define the time interval between adjacent twice operation, and this time interval can be obtained by rough estimate, and should be more than or equal to the required time of front once-through operation in this electronic equipment response adjacent twice operation associated with it.This time interval also can be defined as " Fixed Time Interval ", and according to actual conditions, the time interval between per twice adjacent operation can be identical, also can be different.
Alternatively, this delivery time interval can also be determined according to the executing state that electronic equipment responds last command code.In the case, electronic equipment 4200 can also comprise state-detection parts 4240, and these state-detection parts 4240 detect the command code executing state of the command code execution unit 4230 of this electronic equipment 4200.These state-detection parts 4240 pass to this command code memory unit 4220 with the command code executing state that detects, and in the situation that this command code executing state directive command code is complete, this command code memory unit 4220 passes to this command code execution unit 4230 with the Next Command code.
As mentioned above, command code transfer member 4130 at first with each command code in a plurality of command codes that obtain respectively its corresponding electronic equipment be associated, then, transmit respectively command code according to predetermined electronic equipment order to described at least one electronic equipment.
Alternatively, command code transfer member 4130 can be not with each command code in a plurality of command codes that obtain respectively its corresponding electronic equipment be associated, but simply a plurality of command codes concentrated area that obtains is sent to each electronic equipment.
In the case, electronic equipment 4200 can also comprise effective order code identification component 4250, this effective order code identification component 4250 receives the Next Command code from described command code memory unit 4220, and judges whether the Next Command code that receives is the effective order code.In the situation that judged result is "Yes", the testing result that this effective order code identification component 4250 is finished in response to the command code of state-detection parts 4240, and the Next Command code that receives is passed to command code execution unit 4230.In the situation that judged result is "No", effective order code identification component 4250 receives the Next Command code from described command code memory unit 4220, and judges whether the Next Command code that receives is the effective order code.
Preferably, in electronic equipment shown in Figure 4 4200, when electronic equipment start or shutdown, remove the command code of storage in described command code memory unit 4220.
In addition, the structure of the structure of the electronic equipment shown in Fig. 4 4300 and electronic equipment 4200 is same or similar.
Although in Fig. 4, only show two electronic equipments 4200 and 4300, yet the invention is not restricted to this, controller 4100 can with communicate more than two electronic equipments.
The 3rd embodiment
Figure 5 illustrates according to the controller 5100 of third embodiment of the invention and the schematic block diagram of electronic equipment 5200 and 5300.
Controller 5100 communicates with electronic equipment 5200 and 5300 respectively.This communication can be carried out with wired mode, also can carry out with wireless mode.
Controller 5100 is included in the first control section physically separated from one another and the second control section.
The first control section comprises that operation detection parts 5110, instruction obtain parts 5120 and instruction transfer member 5130.
The second control section comprises command reception parts 5140, compiling of instruction parts 5150 and command code transfer member 5160.This second control section can be external to electronic equipment as the annex of electronic equipment or can be integrated in the electronic equipment 5200.
Electronic equipment 5200 comprises that command code obtains parts 5210 and command code execution unit 5220.
Operation detection parts 5110 are for detection of the first operation to described controller.As mentioned above, this first operation is for the operation that triggers for a series of control commands of at least one electronic equipment that is associated with this controller.Can according to practical situations, configure the concrete form of this first operation.
Instruction obtains the instruction that parts 5120 are used for acquisition and described the first operational correspondence.
Instruction transfer member 5130 is used for the instruction that receives is sent to the command reception parts 5140 of the second control section.
Command reception parts 5140 receive instruction from the instruction transfer member 5130 of the first control section, and send described instruction to compiling of instruction parts 5150.These compiling of instruction parts 5150 obtain described a plurality of command code according to described instruction.
Command code transfer member 5160 is used for transmitting at least one electronic equipment at least one of described a plurality of command codes.In the example of Fig. 5, particularly, command code transfer member 5160 sequentially transmits in described a plurality of command code each according to the order of described a plurality of command codes, namely once a command code is sent to electronic equipment associated with it.
Command code acquisition parts 5210 receive the command code that transmits from the command code transfer member 5160 of controller 5100, and the command code that receives is passed to command code execution unit 5220.
Command code execution unit 3220 is carried out the command code that is delivered to it.
In the situation that example shown in Figure 5, the delivery time interval that is sent between two adjacent command codes of an electronic equipment responds required time of last command code in described two adjacent command codes more than or equal to this electronic equipment.
As described in the first embodiment, this delivery time interval can be determined according to the practical operation of electronic equipment when the described controller of configuration, perhaps can be arranged by the user.
Alternatively, this delivery time interval can also be determined according to the executing state that electronic equipment responds last command code.In the case, the state that can arrange in controller 5100 obtains parts 5170, and this state obtains parts 5170 and receives the executing state that electronic equipment responds last command code from electronic equipment.Correspondingly, electronic equipment 5200 comprises state-detection parts 5230 and state transfer member 5240, these state-detection parts 5230 detect the executing state of the command code of this electronic equipment 5200, and state transfer member 5240 obtains parts 5170 with the state that the executing state that detects sends in the controller 5100.
Alternatively, status poll parts 5180 can also be set in controller 5100, these status poll parts 5180 send the status poll signal to the state-detection parts 5230 of electronic equipment 5200.State-detection parts 5230 detect the executing state of the command code of this electronic equipment after receiving this status poll signal.
Alternatively, this delivery time interval can also be determined according to the current state of electronic equipment.In the case, the state that can arrange in controller obtains parts 5170, and this state obtains the current state that parts 5170 can be finished detected electrons equipment fully initiatively, independently, such as open state, off-mode etc.For example, can utilize cam device to obtain parts 5170 as this state, in order to utilize image-recognizing method to realize the state-detection such as open state, off-mode.
In addition, the structure of the structure of the electronic equipment shown in Fig. 5 5300 and electronic equipment 5200 is same or similar.
Although in Fig. 5, only show two electronic equipments 5200 and 5300, yet the invention is not restricted to this, controller 5100 can with communicate more than two electronic equipments.
The 4th embodiment
Figure 6 illustrates according to the controller 6100 of fourth embodiment of the invention and the schematic block diagram of electronic equipment 6200 and 6300.
Controller 6100 communicates with electronic equipment 6200 and 6300 respectively.This communication can be carried out with wired mode, also can carry out with wireless mode.
Controller 6100 is included in the first control section physically separated from one another and the second control section.
The first control section comprises that operation detection parts 6110, instruction obtain parts 6120 and instruction transfer member 6130.
The second control section comprises command reception parts 6140, compiling of instruction parts 6150 and command code transfer member 6160.This second control section can be external to electronic equipment as the annex of electronic equipment or can be integrated in the electronic equipment 6200.
Electronic equipment 6200 comprises that command code obtains parts 6210, command code memory unit 6220 and command code execution unit 6230.
Operation detection parts 6110, instruction acquisition parts 6120, instruction transfer member 6130, command reception parts 6140 and compiling of instruction parts 6150 correspond respectively to the corresponding component among Fig. 5.For simplified characterization, no longer it is given unnecessary details at this.
Command code transfer member 6160 is used for transmitting at least one electronic equipment at least one of described a plurality of command codes.
In the example of Fig. 6, particularly, command code transfer member 6160 at first with each command code in a plurality of command codes that obtain respectively its corresponding electronic equipment be associated, then, transmit respectively command code according to predetermined electronic equipment order to described at least one electronic equipment, in the case, each electronic equipment in described at least one electronic equipment sequentially transmits the command code that is associated with this electronic equipment to this electronic equipment continuously.
Command code acquisition parts 6210 receive the command code that transmits from the command code transfer member 6160 of controller 6100, and the command code that receives is delivered to command code memory unit 6220.
Then, command code memory unit 6220 is sent to command code execution unit 6230 with the command code of storing seriatim, and command code execution unit 6230 is carried out the command code that is delivered to it.
In the case, be sent to delivery time interval between two adjacent command codes of command code execution unit 6230 more than or equal to the required time of last command code in described two the adjacent command codes of these command code execution unit 6230 responses.
As previously mentioned, this delivery time interval can be arranged by the user.
Alternatively, this delivery time interval can also be determined according to the executing state that electronic equipment responds last command code.In the case, electronic equipment 6200 can also comprise state-detection parts 6240, and these state-detection parts 6240 detect the command code executing state of the command code execution unit 6230 of this electronic equipment 6200.These state-detection parts 6240 pass to this command code memory unit 6220 with the command code executing state that detects, and in the situation that this command code executing state directive command code is complete, this command code memory unit 6220 passes to this command code execution unit 6230 with the Next Command code.
As mentioned above, command code transfer member 6160 at first with each command code in a plurality of command codes that obtain respectively its corresponding electronic equipment be associated, then, transmit respectively command code according to predetermined electronic equipment order to described at least one electronic equipment.
Alternatively, command code transfer member 6160 can be not with each command code in a plurality of command codes that obtain respectively its corresponding electronic equipment be associated, but simply a plurality of command codes concentrated area that obtains is sent to each electronic equipment.
In the case, electronic equipment 6200 can also comprise effective order code identification component 6250, this effective order code identification component 6250 receives the Next Command code from described command code memory unit 6220, and judges whether the Next Command code that receives is the effective order code.In the situation that judged result is "Yes", the testing result that this effective order code identification component 6250 is finished in response to the command code of state-detection parts 6240, and the Next Command code that receives is passed to command code execution unit 6230.In the situation that judged result is "No", effective order code identification component 6250 receives the Next Command code from described command code memory unit 6220, and judges whether the Next Command code that receives is the effective order code.
Preferably, in electronic equipment shown in Figure 6 6200, when electronic equipment start or shutdown, remove the command code of storage in described command code memory unit 6220.
In addition, the structure of the structure of the electronic equipment shown in Fig. 6 6300 and electronic equipment 6200 is same or similar.
Although in Fig. 6, only show two electronic equipments 6200 and 6300, yet the invention is not restricted to this, controller 6100 can with communicate more than two electronic equipments.
The 5th embodiment
Figure 7 illustrates according to the controller 7100 of fifth embodiment of the invention and the schematic block diagram of electronic equipment 7200 and 7300.
Controller 7100 communicates with electronic equipment 7200 and 7300 respectively.This communication can be carried out with wired mode, also can carry out with wireless mode.
Controller 7100 comprises that operation detection parts 7110, instruction obtain parts 7120 and instruction transfer member 7130.
Electronic equipment 7200 comprises command reception parts 7210, compiling of instruction parts 7220, command code memory unit 7230 and command code execution unit 7240.
Operation detection parts 7110 and instruction acquisition parts 7120 correspond respectively to the corresponding component among Fig. 5.For simplified characterization, no longer it is given unnecessary details at this.
Instruction transfer member 7130 is used for the instruction that receives is sent to the command reception parts 7210 of electronic equipment 7200.
Command reception parts 7210 receive instruction from the instruction transfer member 7130 of controller 7100, and send described instruction to compiling of instruction parts 7220.These compiling of instruction parts 7220 obtain described a plurality of command code according to described instruction.
Then, command code memory unit 7230 is sent to command code execution unit 7240 with the command code of storing seriatim, and command code execution unit 7240 is carried out the command code that is delivered to it.
In the case, be sent to delivery time interval between two adjacent command codes of command code execution unit 7240 more than or equal to the required time of last command code in described two the adjacent command codes of these command code execution unit 7240 responses.
As previously mentioned, this delivery time interval can be arranged by the user.
Alternatively, this delivery time interval can also be determined according to the executing state that electronic equipment responds last command code.In the case, electronic equipment 7200 can also comprise state-detection parts 7250, and these state-detection parts 7250 detect the command code executing state of the command code execution unit 7240 of this electronic equipment 7200.These state-detection parts 7250 pass to this command code memory unit 7230 with the command code executing state that detects, and in the situation that this command code executing state directive command code is complete, this command code memory unit 7230 passes to this command code execution unit 7240 with the Next Command code.
As mentioned above, command code memory unit 7230 is sent to command code execution unit 7240 with the command code of storing seriatim.In the situation that there is at least one electronic equipment, a plurality of command codes that obtain may not be that each is relevant with electronic equipment 7200.
In the case, electronic equipment 7200 can also comprise effective order code identification component 7260, this effective order code identification component 7260 receives the Next Command code from described command code memory unit 7230, and judges whether the Next Command code that receives is the effective order code.In the situation that judged result is "Yes", the testing result that this effective order code identification component 7260 is finished in response to the command code of state-detection parts 7250, and the Next Command code that receives is passed to command code execution unit 7240.In the situation that judged result is "No", effective order code identification component 7260 receives the Next Command code from described command code memory unit 7230, and judges whether the Next Command code that receives is the effective order code.
In addition, in the situation that also there is other electronic equipment, for example electronic equipment 7300, and it does not have the compiling of instruction function, need to receive command code associated with it from electronic equipment 7200.
As example, electronic equipment 7300 can have the configuration identical with electronic equipment 3200.In the case, electronic equipment 7200 also comprises command code transfer member 7270, and this command code transfer member 7270 is used for transmitting at least one electronic equipment at least one of described a plurality of command codes.Particularly, corresponding with electronic equipment 3200, command code transfer member 7270 sequentially transmits in described a plurality of command code each according to the order of described a plurality of command codes, namely once a command code is sent to electronic equipment associated with it 7200 (that is, 3200).
Command code obtains parts 3210 and receives the command code that transmits from command code transfer member 7270, and the command code that receives is passed to command code execution unit 3220.Then, command code execution unit 3220 is carried out the command code that is delivered to it.
Be sent to delivery time interval between two adjacent command codes of electronic equipment 7300 more than or equal to the required time of last command code in described two the adjacent command codes of these electronic equipment 7300 responses.
As previously mentioned, this delivery time interval can be determined, can be arranged by the user according to the practical operation of electronic equipment when the described controller of configuration.
As previously mentioned, this delivery time interval can also be determined according to the executing state of the last command code of electronic equipment 7300 responses.In the case, electronic equipment 7200 comprises that also state obtains parts 7280, and this state obtains parts 7280 receive the last command code of these electronic equipment 7300 responses from electronic equipment 7300 executing state.State-detection parts 3230 detect the executing state of the command code of this electronic equipment 7300, and state transfer member 3240 obtains parts 7280 with the state that the executing state that detects sends electronic equipment 7200 to.
Alternatively, status poll parts 7290 can also be set in electronic equipment 7200, these status poll parts 7290 send the status poll signal to the state-detection parts 3230 of electronic equipment 7300.State-detection parts 3230 detect the executing state of the command code of this electronic equipment after receiving this status poll signal.
Alternatively, this delivery time interval can also be determined according to the current state of electronic equipment.In the case, the state that can also arrange in controller obtains parts 7290, and this state obtains the current state that parts 7290 can be finished detected electrons equipment fully initiatively, independently, such as open state, off-mode etc.For example, can utilize cam device to obtain parts 7290 as this state, in order to utilize image-recognizing method to realize the state-detection such as open state, off-mode.
Alternatively, as example, electronic equipment 7300 can have the configuration identical with electronic equipment 4200.In the case,
In the case, electronic equipment 7200 also comprises command code transfer member 7270, and this command code transfer member 7270 is used for transmitting at least one electronic equipment at least one of described a plurality of command codes.Particularly, corresponding with electronic equipment 4300, command code transfer member 7270 at first with each command code in a plurality of command codes that obtain respectively its corresponding electronic equipment be associated, then, transmit respectively command code according to predetermined electronic equipment order to described at least one electronic equipment, in the case, each electronic equipment in described at least one electronic equipment sequentially transmits the command code that is associated with this electronic equipment to this electronic equipment continuously.
Although in Fig. 7, only show electronic equipment 7200 and electronic equipment 7300, yet the invention is not restricted to this, can comprise more than an electronic equipment 7200 with more than an electronic equipment 7300.
Controller and the electronic equipment of the first to the 5th embodiment have at length been introduced according to the present invention in the above.Next, with the example of remote controller as controller, the configuration to the first operation is described briefly.
Be provided with " setting " function key at remote controller.The user presses " setting " key, in order to enter configuration status.
Next, the user presses the button of preparing to be endowed specific function, for example, and " standby " key of set-top box.
Then, the user presses and prepares first integrated button, for example " standby " key of set-top box; Press and prepare second integrated button, for example " standby " key of television set; Press and prepare the 3rd integrated button, for example " information source " key of television set; (repeatedly) press and prepare the 4th integrated button, " ^ " key of television set for example is so that the selector top box is as the signal source of television set; Etc..
At last, the user presses " setting " key again, in order to accept above-mentioned configuration.
After having carried out above-mentioned configuration, when reusing remote controller and control, when pressing " standby " key of set-top box, automatically carry out above-mentioned sequence of operations, thereby directly enter the state that can watch cable television program, improved user's experience.
In addition, when the user wishes to change above-mentioned configuration, can press first " setting " key, so that so that the setting of remote controller turns back to default configuration.Then, the user can according to above-mentioned configuration step, re-start configuration.
Similarly, when the user wishes to cancel above-mentioned configuration, only need press " setting " key, so that the setting of remote controller turns back to default configuration.Then, again pressing " setting " key confirms.
Although under the background of television set and set-top box, described the present invention, yet it will be understood by those skilled in the art that and easily apply the present invention to other situation.For example, television set and DVD player, projecting apparatus and projection cloth etc. are controlled the situation of a plurality of electronic equipments by a controller.
Should be appreciated that and to realize according to control method of electronic device of the present invention, controller and electronic equipment with the various forms of hardware, software, firmware, application specific processor or their combination.
It is also understood that preferably with software realize more illustrated in the accompanying drawings form system component and methods, so the mode that can be programmed according to the present invention of the actual connection between these system components or the function blocks and difference.Provide the description here, those of ordinary skill in the related art can expect of the present invention these and similarly realize or configuration.
Although describe some embodiments of the present invention here with reference to the accompanying drawings, should be appreciated that described embodiment only is illustrative, and not restrictive.It will be appreciated by those skilled in the art that in the situation of the scope and spirit of the present invention that in not deviating from claim and equivalent thereof, limit, can make variation on various forms and the details to these exemplary embodiments.

Claims (23)

1. control method of electronic device comprises:
Detection is to the first operation of controller;
Sequentially obtain a plurality of command codes in response to described the first operation; And
Transmit in described a plurality of command code at least one at least one electronic equipment,
Wherein, the command code relevant with a electronic equipment in described at least one electronic equipment sequentially carried out in this electronic equipment in described a plurality of command code.
2. the method for claim 1, wherein obtaining a plurality of command codes in response to described the first operation comprises:
Obtain the instruction with described the first operational correspondence;
Send described instruction to compiling of instruction parts; And
Described compiling of instruction parts obtain described a plurality of command code according to described instruction.
3. at least one that the method for claim 1, wherein transmits in described a plurality of command code at least one electronic equipment comprises:
Order according to described a plurality of command codes sequentially transmits described a plurality of command code, and wherein, for each command code in described a plurality of command codes, the electronic equipment relevant with this command code transmits this command code in described at least one electronic equipment,
Wherein, the delivery time interval that is sent between two adjacent command codes of an electronic equipment responds required time of last command code in described two adjacent command codes more than or equal to this electronic equipment.
4. at least one that the method for claim 1, wherein transmits in described a plurality of command code at least one electronic equipment comprises:
With each command code in a plurality of command codes that obtain respectively its corresponding electronic equipment be associated,
Transmit respectively command code according to predetermined electronic equipment order to described at least one electronic equipment, wherein, for each electronic equipment in described at least one electronic equipment, sequentially transmit the command code that is associated with this electronic equipment to this electronic equipment continuously, and the command code that is associated with an electronic equipment is stored in the command code memory unit of this electronic equipment.
5. method as claimed in claim 3, wherein, described delivery time interval is to determine one of in the following manner:
When the described controller of configuration, determine according to the practical operation of electronic equipment;
Respond the executing state of the last command code in described two adjacent command codes and determine according to electronic equipment;
Determine according to the current state of electronic equipment; And
Arranged by the user.
6. controller of controlling electronic equipment comprises:
The operation detection parts are for detection of the first operation to described controller;
Command code obtains parts, is used for sequentially obtaining a plurality of command codes in response to described the first operation; And
The command code transfer member is used for transmitting at least one electronic equipment at least one of described a plurality of command codes,
Wherein, the command code relevant with a electronic equipment in described at least one electronic equipment sequentially carried out in this electronic equipment in described a plurality of command code.
7. controller as claimed in claim 6, wherein, described command code obtains parts and comprises:
Instruction obtains parts, is used for the instruction of acquisition and described the first operational correspondence; And
The compiling of instruction parts are used for receiving described instruction and obtain the described instruction that parts obtain, and obtain described a plurality of command code according to described instruction.
8. controller as claimed in claim 6, wherein, described command code transfer member sequentially transmits described a plurality of command code according to the order of described a plurality of command codes, wherein, for each command code in described a plurality of command codes, the electronic equipment relevant with this command code transmits this command code in described at least one electronic equipment
Wherein, the delivery time interval that is sent between two adjacent command codes of an electronic equipment responds required time of last command code in described two adjacent command codes more than or equal to this electronic equipment.
9. controller as claimed in claim 6, wherein, described command code transfer member with each command code in a plurality of command codes that obtain respectively its corresponding electronic equipment be associated, and transmit respectively command code according to predetermined electronic equipment order to described at least one electronic equipment
Wherein, for each electronic equipment in described at least one electronic equipment, described command code transfer member sequentially transmits the command code that is associated with this electronic equipment to this electronic equipment continuously, and the command code that is associated with an electronic equipment is stored in the command code memory unit of this electronic equipment.
10. method as claimed in claim 8, wherein, described delivery time interval is to determine one of in the following manner:
When the described controller of configuration, determine according to the practical operation of electronic equipment;
Respond the executing state of the last command code in described two adjacent command codes and determine according to electronic equipment;
Determine according to the current state of electronic equipment; And
Arranged by the user.
11. controller as claimed in claim 7, wherein, described controller comprises the first control section and the second control section that is separated from each other, and described the second control section is attached on the described electronic equipment or as the part of described electronic equipment and be integrated in the described electronic equipment
Described the first control section comprises that described operation detection parts and described instruction obtain parts,
Described the second control section comprises described compiling of instruction parts and described command code transfer member.
12. controller as claimed in claim 11, wherein, described the first control section also comprises: the instruction transfer member is used for sending described instruction to described the second control section;
Described the second control section also comprises: the command reception parts are used for receiving described instruction and described instruction being offered described compiling of instruction parts.
13. controller as claimed in claim 6 also comprises: state obtains parts, is used for obtaining the mode of operation of described at least one electronic equipment,
Wherein, described command code transfer member obtains the mode of operation of described at least one electronic equipment that parts obtain and sequentially transmits command code to described at least one electronic equipment according to described state.
14. an electronic equipment comprises:
Command code obtains parts, is used for sequentially obtaining a plurality of command codes;
The command code memory unit is used for storing described a plurality of command code; And
The command code execution unit is used for sequentially carrying out at least one of described a plurality of command codes.
15. electronic equipment as claimed in claim 14, wherein, described command code acquisition parts receive described a plurality of command code from the command code transfer member of controller.
16. electronic equipment as claimed in claim 14, wherein, described command code obtains parts and comprises:
The command reception parts are used for receiving instruction from the instruction transfer member of controller; And
The compiling of instruction parts are used for obtaining described a plurality of command code according to described instruction.
17. electronic equipment as claimed in claim 14 also comprises the command code transfer member, its order according to described a plurality of command codes sequentially transmits command code relevant with described other electronic equipment in described a plurality of command code to other electronic equipment,
Wherein, the delivery time interval that is sent between two adjacent command codes of an electronic equipment in other electronic equipment responds required time of last command code in described two adjacent command codes more than or equal to this electronic equipment.
18. electronic equipment as claimed in claim 14, also comprise the command code transfer member, its with each command code relevant with described other electronic equipment in described a plurality of command codes respectively its corresponding electronic equipment be associated, and transmit respectively the command code relevant with this electronic equipment according to predetermined electronic equipment order to each electronic equipment in other electronic equipment
Wherein, for each electronic equipment in described at least one electronic equipment, described command code transfer member sequentially transmits the command code that is associated with this electronic equipment to this electronic equipment continuously, and the command code that is associated with an electronic equipment is stored in the command code memory unit of this electronic equipment.
19. electronic equipment as claimed in claim 14 wherein, is removed the command code of storing in described command code memory unit when described electronic equipment start or shutdown.
20. electronic equipment as claimed in claim 14 also comprises: effective order code identification component, be used for the described a plurality of command code identification effective order codes in described command code storage component stores,
Wherein, described command code execution unit is only carried out the effective order code of identifying.
21. electronic equipment as claimed in claim 14 also comprises:
The state-detection parts, for detection of the mode of operation of described electronic equipment,
Wherein, described command code execution unit determines whether to carry out the Next Command code according to the mode of operation of described electronic equipment.
22. electronic equipment as claimed in claim 14 also comprises:
The status poll parts are used for sending the status poll signal to other electronic equipment; And
State obtains parts, is used for obtaining the mode of operation of other electronic equipment.
23. electronic equipment as claimed in claim 14 also comprises:
The state transfer member is used for transmitting the mode of operation that detects to another electronic equipment or controller,
Wherein, described another electronic equipment or controller come to transmit command code to described electronic equipment according to the mode of operation of the described electronic equipment that receives.
CN2011102254193A 2011-08-08 2011-08-08 Electronic equipment control method, controller and electronic equipment Pending CN102932684A (en)

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Cited By (1)

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Publication number Priority date Publication date Assignee Title
CN103778774A (en) * 2013-11-07 2014-05-07 福建睿能科技股份有限公司 Remote controller and electronic ballast

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Publication number Priority date Publication date Assignee Title
CN1112043A (en) * 1994-02-10 1995-11-22 新城制作所有限公司 Apparatus for automatically fixing the self-piercing nuts
CN1300502A (en) * 1998-06-17 2001-06-20 皇家菲利浦电子有限公司 System of apparatus and peripherals
CN1679062A (en) * 2002-06-24 2005-10-05 松下电器产业株式会社 Personal programmable universal remote control

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1112043A (en) * 1994-02-10 1995-11-22 新城制作所有限公司 Apparatus for automatically fixing the self-piercing nuts
CN1300502A (en) * 1998-06-17 2001-06-20 皇家菲利浦电子有限公司 System of apparatus and peripherals
CN1679062A (en) * 2002-06-24 2005-10-05 松下电器产业株式会社 Personal programmable universal remote control

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103778774A (en) * 2013-11-07 2014-05-07 福建睿能科技股份有限公司 Remote controller and electronic ballast

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Application publication date: 20130213