CN202472907U - Remote controller and display control system - Google Patents
Remote controller and display control system Download PDFInfo
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- CN202472907U CN202472907U CN2012200499073U CN201220049907U CN202472907U CN 202472907 U CN202472907 U CN 202472907U CN 2012200499073 U CN2012200499073 U CN 2012200499073U CN 201220049907 U CN201220049907 U CN 201220049907U CN 202472907 U CN202472907 U CN 202472907U
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- 230000035807 sensation Effects 0.000 description 4
- 230000011664 signaling Effects 0.000 description 4
- 230000000392 somatic effect Effects 0.000 description 4
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Abstract
The utility model provides a remote controller which comprises an acquisition unit, a processing unit and a signal transmitting unit, wherein the acquisition unit is connected to the processing unit and the signal transmitting unit and used for converting acquired action and/or voice commands into control signals and sending the control signals to the processing unit and the signal transmitting unit, the processing unit is connected to the signal transmitting unit and used for sending transmitting commands to the signal transmitting unit when receiving the control signals from the acquisition unit, and the signal transmitting unit is used for sending the control signals from the acquisition unit to a control host corresponding to the remote controller when receiving the transmitting commands from the processing unit. Correspondingly, the utility model further provides a display control system. By means of the technical scheme, various functions of a mouse, a microphone, a motion sensing game, key control and the like can be integrated, and the remote controller is conveniently used by a user.
Description
Technical field
The utility model relates to the controlled in wireless field, in particular to a kind of telepilot and a kind of display control program.
Background technology
The development of intelligent television; The most basic is the operation interface of the function and the Android system of browsing page; Common infrared and RF remote is supported the very complicated and difficulty that these remote controls will become; And simply adopt the scheme of cordless key mouse+normal remote control, can satisfy the primary demand of operation, but very not convenient; In addition the intelligent television processing power powerful after, be not only a TV, can also become a game machine, a computer; A phone, these modes of controlling of traditional realization are to need a remote control of keyboard device, aerial pick-up sticks; A mouse adds a Mike, totally 4 equipment.And in the telepilot design, product in the past just comprises radio frequency, voice, full keyboard or game function, thereby can't satisfy user's demand.
Therefore, need a kind of new remote control equipment, can realize mouse, microphone, somatic sensation television game, integrated, user-friendly by multiple functions such as key control.
The utility model content
In order one of to solve the problems of the technologies described above at least, the utility model provides a kind of new remote control equipment, can realize mouse, microphone, somatic sensation television game, integrated, user-friendly by multiple functions such as key control.
In view of this; The utility model provides a kind of telepilot; Comprise: collecting unit; Be connected to processing unit and signal transmission unit, action and/or sound instruction that said collecting unit will collect are generated as control signal, and said control signal is sent to said processing unit and said signal transmission unit; Said processing unit is connected to said signal transmission unit, when the said control signal that receives from said collecting unit, sends transmission command to said signal transmission unit; And said signal transmission unit, when the said transmission command that receives from said processing unit, will be sent to the corresponding main control system of said telepilot from the said control signal of said collecting unit.
In this technical scheme; Collecting unit can be gathered the instruction under the multiple mode; Cause the motion of telepilot in the space, the sound that the user sends etc. such as user's touch action, user's arms swing, be sent to main control system through the control signal that these instructions are corresponding then, such as the control system of independently controlling platform, intelligent television etc.; Produce corresponding effects, such as changing images displayed, animation etc., sending corresponding sound etc.
In technique scheme, preferably, said signal transmission unit comprises: radio frequency transmission device and/or infrared transmission means.In this technical scheme, can only use radio frequency transmission or infrared transmission, also can use simultaneously, such as when the transmission of the spatial movement data of carrying out telepilot, use RF-wise, when carrying out the transmission of push button signalling, use infrared mode.
In technique scheme, preferably, said collecting unit specifically comprises: kinematic parameter inductor unit, and respond to the kinematic parameter of said telepilot in the space, and generate corresponding motor message; The speech processes subelement receives phonetic order, and converts said phonetic order into voice signal; The touch sensible subelement according to the touch action that receives, generates corresponding virtual cursor movable signal; And key induced subelement, according to the push action that receives, generate the corresponding key command signal.
In this technical scheme, can pass through like acceleration transducer and/or angular-rate sensor, or the chip of integrated these sensors etc., the spatial movement parameter of telepilot is carried out the generation of signal; Can pass through transmitter, like microphone etc., the sound instruction that the user is sent receives, and after being received by main control system then, it is compared analysis, the control intention of judges, and carry out; Can pass through OFN (Optical Finger Navigation, optical touch navigation) mouse etc., after user's touch operation is responded to; After the analysis through main control system, on corresponding display device, to virtual cursor; Like mouse sign etc., move, the control of click etc.; Can pass through button, directly receive user's instruction.
In technique scheme, preferably, said kinematic parameter inductor unit comprises: six gyroscope chips.
In technique scheme, preferably, said kinematic parameter inductor unit comprises: at least one acceleration transducer and/or at least one angular-rate sensor.
In technique scheme, preferably, said touch sensible subelement comprises: light touch navigation circuit.
In technique scheme, preferably, said signal transmission unit also is used for: receive the vibrational feedback signal from said main control system; Said processing unit also is used for: be connected to said signal transmission unit, analyze the feedback data that comprises in the said vibrational feedback signal, and generate corresponding drive signal; And said telepilot also comprises: motor drive unit, be connected to said processing unit, and the said drive signal from said processing unit according to receiving drives the vibrating motor in the said telepilot, makes it carry out the vibration of corresponded manner.
In this technical scheme, through parameters such as the time of vibration of vibrating motor, Oscillation Amplitude, vibration frequency are fed back, can control the working method of vibrating motor, and then in user's operating process, experience for the user brings good vibrational feedback.
In technique scheme; Preferably; Also comprise: the unit is set,, the switch relation between said kinematic parameter inductor unit, said speech processes subelement, said touch sensible subelement and the said key induced subelement is set according to the order that is provided with that receives; And said processing unit also is used for: check the collecting unit of having opened; And, the on off state of said kinematic parameter inductor unit, said speech processes subelement, said touch sensible subelement and said key induced subelement is set according to the said switch relation that has been provided with in the unit that is provided with.
In this technical scheme since between a plurality of functions in use, possibly can't open simultaneously; Such as some buttons possibly be shared, or when opening body sense equipment such as gyroscope, possibly produce the false touch of OFN mouse to be bumped etc.; Therefore, can be through the relation between each module be presetted, thereby when opening a certain function; Possibly cause the function of contradiction to close automatically, prevent maloperation.
In technique scheme, preferably, said processing unit and said collecting unit, said signal transmission unit and/or said the setting adopt the 12C agreement to carry out the signal transmission between the unit.
Another aspect according to the utility model has also proposed a kind of display control program
In this technical scheme; Collecting unit can be gathered the instruction under the multiple mode; Cause the motion of telepilot in the space, the sound that the user sends etc. such as user's touch action, user's arms swing, be sent to main control system through the control signal that these instructions are corresponding then, such as the control system of independently controlling platform, intelligent television etc.; Produce corresponding effects, such as changing images displayed, animation etc., sending corresponding sound etc.
Description of drawings
Fig. 1 shows the block diagram according to the telepilot of the utility model;
Fig. 2 shows the block diagram according to the display control program of the utility model;
Fig. 3 A to Fig. 3 I shows according to chip in the telepilot of the embodiment of the utility model and circuit and connects synoptic diagram; And
Fig. 4 shows the synoptic diagram according to the display control program of the embodiment of the utility model.
Embodiment
In order more to be expressly understood above-mentioned purpose, the feature and advantage of the utility model, the utility model is further described in detail below in conjunction with accompanying drawing and embodiment.
A lot of details have been set forth in the following description so that make much of the utility model; But; The utility model can also adopt other to be different from other modes described here and implement, and therefore, the utility model is not limited to the restriction of following disclosed specific embodiment.
Fig. 1 shows the block diagram according to the telepilot of the utility model.
As shown in Figure 1; Telepilot 100 according to the utility model; Comprise: collecting unit 102; Be connected to processing unit 104 and signal transmission unit 106, action and/or sound instruction that collecting unit 102 will collect are generated as control signal, and control signal is sent to processing unit 104 and signal transmission unit 106; Processing unit 104 is connected to signal transmission unit 106, when the control signal that receives from collecting unit 102, sends transmission commands to signal transmission unit 106; And signal transmission unit 106, when the transmission command that receives from processing unit 104, will be sent to the corresponding main control system of telepilot 100 from the control signal of collecting unit 102.
In this technical scheme; Collecting unit 102 can be gathered the instruction under the multiple mode; Cause the motion of telepilot 100 in the space, the sound that the user sends etc. such as user's touch action, user's arms swing, be sent to main control system through the control signal that these instructions are corresponding then, such as the control system of independently controlling platform, intelligent television etc.; Produce corresponding effects, such as changing images displayed, animation etc., sending corresponding sound etc.
In technique scheme, signal transmission unit 106 comprises: radio frequency transmission device and/or infrared transmission means.In this technical scheme, can only use radio frequency transmission or infrared transmission, also can use simultaneously, such as when the transmission of the spatial movement data of carrying out telepilot 100, use RF-wise, when carrying out the transmission of push button signalling, use infrared mode.
In technique scheme, collecting unit 102 specifically comprises: kinematic parameter inductor unit 1020, and the kinematic parameter of induction telepilot 100 in the space, and generate corresponding motor message; Speech processes subelement 1022 receives phonetic order, and converts phonetic order into voice signal; Touch sensible subelement 1024 according to the touch action that receives, generates corresponding virtual cursor movable signal; And key induced subelement 1026, according to the push action that receives, generate the corresponding key command signal.
In this technical scheme, can pass through like acceleration transducer and/or angular-rate sensor, or the chip of integrated these sensors etc., the spatial movement parameter of telepilot 100 is carried out the generation of signal; Can pass through transmitter, like microphone etc., the sound instruction that the user is sent receives, and after being received by main control system then, it is compared analysis, the control intention of judges, and carry out; Can pass through OFN (Optical Finger Navigation, optical touch navigation) mouse etc., after user's touch operation is responded to; After the analysis through main control system, on corresponding display device, to virtual cursor; Like mouse sign etc., move, the control of click etc.; Can pass through button, directly receive user's instruction.
In technique scheme, kinematic parameter inductor unit 1020 comprises: six gyroscope chips.
In technique scheme, kinematic parameter inductor unit 1020 comprises: at least one acceleration transducer and/or at least one angular-rate sensor.
In technique scheme, touch sensible subelement 1024 comprises: light touch navigation circuit.
In technique scheme, signal transmission unit 106 also is used for: receive the vibrational feedback signal from main control system; Processing unit 104 also is used for: be connected to signal transmission unit 106, analyze the feedback data that comprises in the vibrational feedback signal, and generate corresponding drive signal; And telepilot 100 also comprises: motor drive unit 108, be connected to processing unit 104, and according to the drive signal that receives, drive the vibrating motor in the telepilot 100 from processing unit 104, make it carry out the vibration of corresponded manner.
In this technical scheme, through parameters such as the time of vibration of vibrating motor, Oscillation Amplitude, vibration frequency are fed back, can control the working method of vibrating motor, and then in user's operating process, experience for the user brings good vibrational feedback.
In technique scheme; Also comprise: unit 110 is set; According to the order that is provided with that receives, the switch relation between kinematic parameter inductor unit 1020, speech processes subelement 1022, touch sensible subelement 1024 and the key induced subelement 1026 is set; And processing unit 104 also is used for: check the collecting unit of having opened 102; And, the on off state of kinematic parameter inductor unit 1020, speech processes subelement 1022, touch sensible subelement 1024 and key induced subelement 1026 is set according to the switch relation that has been provided with in the unit 110 is set.
In this technical scheme since between a plurality of functions in use, possibly can't open simultaneously; Such as some buttons possibly be shared, or when opening body sense equipment such as gyroscope, possibly produce the false touch of OFN mouse to be bumped etc.; Therefore, can be through the relation between each module be presetted, thereby when opening a certain function; Possibly cause the function of contradiction to close automatically, prevent maloperation.
In technique scheme, processing unit 104 and collecting unit 102, signal transmission unit 106 and/or be provided with between the unit 110 and adopt the I2C agreement to carry out the signal transmission.
Fig. 2 shows the block diagram according to the display control program of the utility model.
As shown in Figure 2, the display control program 200 according to the utility model comprises: telepilot 100 as shown in Figure 1; And main control system 202, according to the control signal that receives, demonstrating corresponding image on the display device of main control system 202 and/or on the audio frequency apparatus of main control system 202, sending corresponding sound from telepilot 100.
Wherein, Telepilot 100 comprises: collecting unit 102 is connected to processing unit 104 and signal transmission unit 106; Action and/or sound instruction that collecting unit 102 will collect are generated as control signal, and control signal is sent to processing unit 104 and signal transmission unit 106; Processing unit 104 is connected to signal transmission unit 106, when the control signal that receives from collecting unit 102, sends transmission commands to signal transmission unit 106; And signal transmission unit 106, when the transmission command that receives from processing unit 104, will be sent to the corresponding main control system of telepilot 100 from the control signal of collecting unit 102.
In this technical scheme; Collecting unit 102 can be gathered the instruction under the multiple mode; Cause the motion of telepilot 100 in the space, the sound that the user sends etc. such as user's touch action, user's arms swing, be sent to main control system through the control signal that these instructions are corresponding then, such as the control system of independently controlling platform, intelligent television etc.; Produce corresponding effects, such as changing images displayed, animation etc., sending corresponding sound etc.
In technique scheme, signal transmission unit 106 comprises: radio frequency transmission device and/or infrared transmission means.In this technical scheme, can only use radio frequency transmission or infrared transmission, also can use simultaneously, such as when the transmission of the spatial movement data of carrying out telepilot 100, use RF-wise, when carrying out the transmission of push button signalling, use infrared mode.
In technique scheme, collecting unit 102 specifically comprises: kinematic parameter inductor unit 1020, and the kinematic parameter of induction telepilot 100 in the space, and generate corresponding motor message; Speech processes subelement 1022 receives phonetic order, and converts phonetic order into voice signal; Touch sensible subelement 1024 according to the touch action that receives, generates corresponding virtual cursor movable signal; And key induced subelement 1026, according to the push action that receives, generate the corresponding key command signal.
In this technical scheme, can pass through like acceleration transducer and/or angular-rate sensor, or the chip of integrated these sensors etc., the spatial movement parameter of telepilot 100 is carried out the generation of signal; Can pass through transmitter, like microphone etc., the sound instruction that the user is sent receives, and after being received by main control system then, it is compared analysis, the control intention of judges, and carry out; Can pass through OFN (Optical Finger Navigation, optical touch navigation) mouse etc., after user's touch operation is responded to; After the analysis through main control system, on corresponding display device, to virtual cursor; Like mouse sign etc., move, the control of click etc.; Can pass through button, directly receive user's instruction.
In technique scheme, kinematic parameter inductor unit 1020 comprises: six gyroscope chips.
In technique scheme, kinematic parameter inductor unit 1020 comprises: at least one acceleration transducer and/or at least one angular-rate sensor.
In technique scheme, touch sensible subelement 1024 comprises: light touch navigation circuit.
In technique scheme, signal transmission unit 106 also is used for: receive the vibrational feedback signal from main control system; Processing unit 104 also is used for: be connected to signal transmission unit 106, analyze the feedback data that comprises in the vibrational feedback signal, and generate corresponding drive signal; And telepilot 100 also comprises: motor drive unit 108, be connected to processing unit 104, and according to the drive signal that receives, drive the vibrating motor in the telepilot 100 from processing unit 104, make it carry out the vibration of corresponded manner.
In this technical scheme, through parameters such as the time of vibration of vibrating motor, Oscillation Amplitude, vibration frequency are fed back, can control the working method of vibrating motor, and then in user's operating process, experience for the user brings good vibrational feedback.
In technique scheme; Also comprise: unit 110 is set; According to the order that is provided with that receives, the switch relation between kinematic parameter inductor unit 1020, speech processes subelement 1022, touch sensible subelement 1024 and the key induced subelement 1026 is set; And processing unit 104 also is used for: check the collecting unit of having opened 102; And, the on off state of kinematic parameter inductor unit 1020, speech processes subelement 1022, touch sensible subelement 1024 and key induced subelement 1026 is set according to the switch relation that has been provided with in the unit 110 is set.
In this technical scheme since between a plurality of functions in use, possibly can't open simultaneously; Such as some buttons possibly be shared, or when opening body sense equipment such as gyroscope, possibly produce the false touch of OFN mouse to be bumped etc.; Therefore, can be through the relation between each module be presetted, thereby when opening a certain function; Possibly cause the function of contradiction to close automatically, prevent maloperation.
In technique scheme, processing unit 104 and collecting unit 102, signal transmission unit 106 and/or be provided with between the unit 110 and adopt the I2C agreement to carry out the signal transmission.
Below in conjunction with Fig. 3 A to Fig. 3 I, the instance chip of concrete use and the circuit between each chip built describe, wherein, Fig. 3 A to Fig. 3 I shows according to chip in the telepilot of the embodiment of the utility model and circuit and connects synoptic diagram.
Shown in Fig. 3 A, be the process chip 302 that the utility model uses, concrete model is FRE001, this chip is used for other chips are controlled, and the data computation that wherein produces etc. is handled.Need to prove that in order to reduce the volume of telepilot, in this FRE001 chip used herein, therefore integrated radio frequency (RF) transmission chip, does not need extra connection radio frequency transmission equipment, certainly, this point obviously is not necessary.
Shown in Fig. 3 B; It is the gyroscope chip 304 that the utility model uses; Concrete model is LSM330DL, is a 6 gyroscope chips, wherein includes 3 acceleration transducers and 3 angular-rate sensors; Be used for when the user carries out somatic sensation television game the parameters such as movement locus of induction telepilot in the space.Certainly; Obviously also can use independently sensor or sensor chip; The acceleration transducer 306 that such as the model shown in Fig. 3 C is MP3050 (nc) is the angular-rate sensor 308 of KXTF9 (nc) with model, thereby reaches the effect similar with gyroscope chip 304.
Shown in Fig. 3 D, in order to realize user's voice control, used coder 310 in the utility model, concrete model is TLV320AIC3204, is used to receive the phonetic order that the user sends, and generates corresponding digital signal.After by main control system this signal being resolved, recognize user's real intention.
Shown in Fig. 3 E, in order to realize the user, like the virtual cursor in the televisor to display device; Control like the mouse sign; Use OFN circuit 314, be specially the SAE_OFN chip, be used to respond to user's touch action; Thereby mouse sign etc. is controlled, realized as drag, click, operation such as selection.
Shown in Fig. 3 F,, realize the key control of pressing on the telepilot through keyboard scanning circuit 316; Here; The corresponding a plurality of functions of same button possibility, this can realize thereby get into corresponding operator scheme through opening or close some functional module at one time.
Shown in Fig. 3 G, in the process of operating, when carrying out the control of somatic sensation television game, can also pass through motor drive circuit 312, motor is driven, thereby the control that reaches vibrational feedback is experienced.Specifically can control signal be sent to telepilot by main control system; After by the process chip 302 shown in Fig. 3 A it being resolved then; With Parameters Transformation such as time of vibration, vibration number, vibration frequency, oscillation intensitys is control command; Be sent to motor drive circuit 312,, produce corresponding vibrating effect by motor drive circuit 312 CD-ROM drive motors.
Connection synoptic diagram for each chip, circuit among concrete above-mentioned Fig. 3 A to Fig. 3 G; Shown in Fig. 3 H; Be connected to gyroscope chip 304, coder 310, OFN circuit 314, keyboard scanning circuit 316 respectively by process chip 302, thereby realized the control of multiple modes such as body sense, voice, mouse, keyboard; Realize vibrational feedback through connecting motor drive circuit 312.
Can also like booster circuit 318, low pressure difference linearity stabilizator 320 (LDO, Low Dropout Regulator) etc., thereby help to reach more stable control effect through connecting some other circuit.
In addition,, can also use acceleration transducer 306, angular-rate sensor 308 to replace, thereby constitute the connected mode shown in Fig. 3 I, but can accomplish all functional effects equally for gyroscope chip 304 wherein.
Fig. 4 shows the synoptic diagram according to the display control program of the embodiment of the utility model.
As shown in Figure 4; Display control program 400 according to the embodiment of the utility model comprises: telepilot 404 and TV 402; Wherein, This telepilot 404 is equivalent to the telepilot 100 among Fig. 1, and integrated multiple control modes such as body sense, voice, mouse, button are controlled effect better, more easily thereby reach.
In this display control program 400; Telepilot 404 is integrated with RF transmission chip; Carry out the transmission of signal or data with TV 402 through RF transmission equipment 406, wherein, RF transmission equipment 406 is connected through USB or other modes with control main board in the TV 402.The RF transmission equipment here can be integrated in the TV 402, also can place TV 402 outsides.
Data for telepilot 404 generations; Parameter information as body sense equipment obtains can transmit through RF transmission equipment 406, and for push button signalling etc.; Then can transfer to TV 402 through IR (infrared) transmission equipment 408; The IR transmission equipment 408 here is present nearly all integrated equipment of TV, and certainly, placing the outside of TV 402 also is feasible obviously.
In the process of controlling through 404 pairs of TVs 402 of telepilot, the considerations such as custom when being in the user and using for fear of maloperation, can only be opened part of functions at one time, and are specifically as shown in table 1:
Table 1
Certainly, for concrete unlatching or close mode, also can change and set according to the user demand of self, to reach better experience effect by the user.
The preferred embodiment that the above is merely the utility model is not limited to the utility model, and for a person skilled in the art, the utility model can have various changes and variation.All within the spirit and principle of the utility model, any modification of being done, be equal to replacement, improvement etc., all should be included within the protection domain of the utility model.
Claims (10)
1. a telepilot is characterized in that, comprising:
Collecting unit is connected to processing unit and signal transmission unit, and action and/or sound instruction that said collecting unit will collect are generated as control signal, and said control signal is sent to said processing unit and said signal transmission unit;
Said processing unit is connected to said signal transmission unit, when the said control signal that receives from said collecting unit, sends transmission command to said signal transmission unit; And
Said signal transmission unit when the said transmission command that receives from said processing unit, will be sent to the corresponding main control system of said telepilot from the said control signal of said collecting unit.
2. telepilot according to claim 1 is characterized in that, said signal transmission unit comprises: radio frequency transmission device and/or infrared transmission means.
3. telepilot according to claim 1 and 2 is characterized in that, said collecting unit specifically comprises:
The kinematic parameter of said telepilot in the space responded in kinematic parameter inductor unit, and generates corresponding motor message;
The speech processes subelement receives phonetic order, and converts said phonetic order into voice signal;
The touch sensible subelement according to the touch action that receives, generates corresponding virtual cursor movable signal; And
Key induced subelement according to the push action that receives, generates the corresponding key command signal.
4. telepilot according to claim 3 is characterized in that, said kinematic parameter inductor unit comprises: six gyroscope chips.
5. telepilot according to claim 3 is characterized in that, said kinematic parameter inductor unit comprises: at least one acceleration transducer and/or at least one angular-rate sensor.
6. telepilot according to claim 3 is characterized in that, said touch sensible subelement comprises: light touch navigation circuit.
7. telepilot according to claim 1 and 2 is characterized in that, said signal transmission unit also is used for: receive the vibrational feedback signal from said main control system;
Said processing unit also is used for: be connected to said signal transmission unit, analyze the feedback data that comprises in the said vibrational feedback signal, and generate corresponding drive signal; And
Said telepilot also comprises: motor drive unit, be connected to said processing unit, and the said drive signal from said processing unit according to receiving drives the vibrating motor in the said telepilot, makes it carry out the vibration of corresponded manner.
8. telepilot according to claim 1 and 2 is characterized in that, also comprises:
The unit is set,, the switch relation between said kinematic parameter inductor unit, said speech processes subelement, said touch sensible subelement and the said key induced subelement is set according to the order that is provided with that receives; And
Said processing unit also is used for: check the collecting unit of having opened; And, the on off state of said kinematic parameter inductor unit, said speech processes subelement, said touch sensible subelement and said key induced subelement is set according to the said switch relation that has been provided with in the unit that is provided with.
9. telepilot according to claim 8 is characterized in that, said processing unit and said collecting unit, said signal transmission unit and/or said the setting adopt the I2C agreement to carry out the signal transmission between the unit.
10. a display control program is characterized in that, comprising:
Like each described telepilot in the claim 1 to 9; And
Said main control system, according to receive from said control of remote controller signal, send corresponding sound on corresponding image and/or the audio frequency apparatus demonstrating on the display device of said main control system at said main control system.
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CN2012200499073U CN202472907U (en) | 2012-02-16 | 2012-02-16 | Remote controller and display control system |
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CN2012200499073U CN202472907U (en) | 2012-02-16 | 2012-02-16 | Remote controller and display control system |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN103440751A (en) * | 2013-08-15 | 2013-12-11 | 德清东胜电子有限公司 | Multifunctional remote control device |
CN104156136A (en) * | 2013-05-15 | 2014-11-19 | 上海渐华科技发展有限公司 | Karaoke song requesting and control method based on optical finger navigation |
CN104461090A (en) * | 2013-09-13 | 2015-03-25 | 鸿富锦精密工业(深圳)有限公司 | Electronic device |
WO2018176248A1 (en) * | 2017-03-29 | 2018-10-04 | 博立多媒体控股有限公司 | Input apparatus |
CN110610601A (en) * | 2019-10-15 | 2019-12-24 | 南京大学 | Control method for signal transmission |
-
2012
- 2012-02-16 CN CN2012200499073U patent/CN202472907U/en not_active Expired - Lifetime
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
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CN104156136A (en) * | 2013-05-15 | 2014-11-19 | 上海渐华科技发展有限公司 | Karaoke song requesting and control method based on optical finger navigation |
CN104156136B (en) * | 2013-05-15 | 2017-04-19 | 上海渐华科技发展有限公司 | Karaoke song requesting and control method based on optical finger navigation |
CN103440751A (en) * | 2013-08-15 | 2013-12-11 | 德清东胜电子有限公司 | Multifunctional remote control device |
CN104461090A (en) * | 2013-09-13 | 2015-03-25 | 鸿富锦精密工业(深圳)有限公司 | Electronic device |
CN104461090B (en) * | 2013-09-13 | 2018-03-20 | 赛恩倍吉科技顾问(深圳)有限公司 | Electronic installation |
WO2018176248A1 (en) * | 2017-03-29 | 2018-10-04 | 博立多媒体控股有限公司 | Input apparatus |
CN110610601A (en) * | 2019-10-15 | 2019-12-24 | 南京大学 | Control method for signal transmission |
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