CN102404712A - Automatic determination method for setting of configuration parameter of radio control unit - Google Patents

Automatic determination method for setting of configuration parameter of radio control unit Download PDF

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Publication number
CN102404712A
CN102404712A CN2010102799542A CN201010279954A CN102404712A CN 102404712 A CN102404712 A CN 102404712A CN 2010102799542 A CN2010102799542 A CN 2010102799542A CN 201010279954 A CN201010279954 A CN 201010279954A CN 102404712 A CN102404712 A CN 102404712A
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CN
China
Prior art keywords
control unit
tcu
wireless device
transmission control
receiver
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CN2010102799542A
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Chinese (zh)
Inventor
加里·M·德威特
克里斯·S·罗赛尔
布拉德·雪莉
拉里·德福
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TREKSAKAS CORP
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TREKSAKAS CORP
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Priority to CN2010102799542A priority Critical patent/CN102404712A/en
Publication of CN102404712A publication Critical patent/CN102404712A/en
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Abstract

The invention relates to a method for automatically determining a configuration parameter setting of a radio control unit. A method for determining an output signal is provided. A radio equipment identifier relevant with a piece of second radio equipment is stored in a piece of first radio equipment. One or more configuration parameter settings relevant with the second radio equipment are stored in the first radio equipment. The first radio equipment identifies the second radio equipment based on the radio equipment identifier. Responding to identification to the second radio equipment, the first radio equipment automatically determines the configuration parameter setting to determine an output signal based on the input of a user. The first radio equipment establishes a radio communication link with the second radio equipment. The first radio equipment receives the input of the user. And the first radio equipment determines the output signal based on the configuration parameter setting and the input of the user. The first radio equipment transmits the output signal to the second radio equipment through the radio communication link.

Description

What the radio control unit configuration parameter was provided with confirms automatically
The cross reference of related application
The application relates to and requires, title that submitted on September 10th, 2009 is 61/241 for the sequence number of " AUTO-LINKING FOR RADIO CONTROL UNITS "; 340 common unsettled U.S. Provisional Patent Application; With, title that submitted to the rights and interests that are 61/266,923 U.S. Provisional Patent Application for the sequence number of " AUTO-LINKING FOR RADIO CONTROL UNITS " from submit to on November 4th, 2009.Except sequence number is 61/241; Outside the certain claims in 340 the U.S. Provisional Patent Application; Whole disclosures of these applications are merged in by reference and are used for all purposes at this, and described certain claims is cancelled in the information disclosure statement of submitting to simultaneously with the application.
Technical field
The present invention relates to link radio control unit, and more particularly, relate to the radio frequency transmission chain of controller is received radio frequency unit.
Background
The radio control of today (R/C) fan has a large amount of selections from the industry that develops rapidly, to select the R/C unit of reasonable price.Along with the improvement of R/C technical performance, the minimizing of delay and the improvement of reliability, its application in commercial and military field also becomes more universal.
Modern digital radio will consider very approaching each other many users and can on the identical time, operate its unit.So, moving a large amount of R/C unit (nearly a hundreds of user) simultaneously and do not have under the situation of interference at needs, this possibly be even more important.
Typically, the user can have a plurality of R/C unit, and one or more radio frequency (RF) transmission control unit (TCU) is arranged, to operate said a plurality of R/C unit.Typically, transmission control unit (TCU) can only be used by a user and do not shared.Yet individual unit can be shared between a plurality of users are such as the member of same home, and each user has its oneself transmission control unit (TCU).
The R/C unit can be the model vehicle of Long-distance Control.Each R/C unit can have the RF receiver, and it is mounted when making said unit.Receiver can be relevant with the RF transmission control unit (TCU), the said unit of said RF transmission control unit (TCU) may command, and said RF transmission control unit (TCU) can be relevant with receiver similarly.These correlations can be called as " binding ".Create the process of binding and to be called as " binding ".The transmission control unit (TCU) that has the binding of receiver can be described as " by binds " to this receiver, and the receiver that has a binding of transmission control unit (TCU) can be described as " by binding " and arrives this transmission control unit (TCU).
In order to create binding, the user can be transmission control unit (TCU) and powers up, and presses the configuration switch on the transmission control unit (TCU) simultaneously, then for the receiver of unit powers up, presses the link switch on the receiver simultaneously.In some seconds, transmission control unit (TCU) and receiver can come " binding " through exchanging unique electronic signature and key.Each transmission control unit (TCU) and receiver can be preserved unique electronic signature of other transmission control unit (TCU)s and receiver, make each transmission control unit (TCU) and receiver can recognize other transmission control unit (TCU) and receiver from now on.No matter their title how, the two possibly be able to realize transmission control unit (TCU) and receiver transmission and receive these two kinds of functions of radio communication.Therefore, each all can be called as " transceiver " transmission control unit (TCU) and receiver, but in order between the two, to distinguish, " transmission control unit (TCU) " and " receiver " will use a technical term here.
When receiver of before will using, being bound and transmission control unit (TCU); Each receiver and transmission control unit (TCU) possibly need to find other the receiver and the existence of transmission control unit (TCU); Be found to the existence of the binding of other receivers and transmission control unit (TCU), and be configured to communicate by letter with transmission control unit (TCU) with other receivers.This process can be called as " link ".For example, when receiver and transmission control unit (TCU) are powered up, can link.The electronic signature of being preserved when binding at receiver and transmission control unit (TCU) can be used to let receiver and transmission control unit (TCU) recognize each other.Link can be set up communication channel between receiver and transmission control unit (TCU).This communication channel can be called as " link ".Link can be used to two-way communication.
Bind and link can guarantee that user's transmission control unit (TCU) only controls this user's unit, rather than the nigh unit that belongs to other users.Unit can be to reacting from the order of its transmission control unit (TCU) of binding, and can ignore from not with the order of the transmission control unit (TCU) of its binding.Therefore, a plurality of user's controllable poles do not have to disturb for approaching a plurality of unit.
For transmission control unit (TCU) of use was controlled at the user of switching between a plurality of control units, it possibly be consuming time and inconvenient repeating binding procedure.For a plurality of unit, the link switch that is used for the unit receiver can be positioned at the waterproof case of this unit body.In order to contact said link switch, the body that the user removes the unit possibly is getting permission contacting said shell, and tool using is opened this shell.
In order to reduce, can some transmission control unit (TCU)s be tied on a plurality of unit simultaneously repeating the needs of binding procedure.Therefore, the user can with one in these transmission control unit (TCU)s with a plurality of unit in one link, and do not repeat said binding procedure.
The operation of unit can be disposed through setting various parameter.Some parameters can dispose according to preference, such as about turning to, brake and the parameter of throttling.Can use transmission control unit (TCU) to come setup parameter.
Though parameter is such as turning to, brake and throttling can being disposed according to preference, some unit can have enforceable parameter, and these parameters must suitably be set correctly to control said unit.An example is the direction of rotation that turns to servomotor.In the subscriber unit some can have the heads servomotor that turns to, and other unit can have the servomotor that turns to of reversing simultaneously.Depend on said unit, the direction of rotation of the servomotor of response control input possibly be reversed.Reverse or the channel upset of servomotor of being known as of this process.
If the direction of rotation of the servomotor of unit is suitably set, then when the user attempts to turn to this unit on the direction, the direction that said unit may switched in opposite.Consequently, said unit possibly bump, thus cause the unit damage, other properties loss and to cause the people injured.This possibly need pay close attention to those model surface cars that can move with 40 to 60 miles speed per hour especially.This also possibly need pay close attention to the model of an airplane that might bump especially when those turn to the opposite way round especially.
One group of set about the parameter setting of unit can be called as " summary file ".Transmission control unit (TCU) can be preserved a plurality of summary file, and the user can select to load about in the summary file of transmission control unit (TCU).Typically, there is the user of a plurality of unit possibly have one or more summary file that is specifically designed to each unit.When changing to different unit, the user can select the summary file about this unit, rather than sets each parameter.Yet if when the user changes the unit, this user forgets and will change summary file, and transmission control unit (TCU) possibly use wrong parameter to control said unit.If enforceable parameter is not oppositely suitably set such as the rotation that turns to servomotor, then this unit possibly bump.
If transmission control unit (TCU) can load the specific summary file of its link unit automatically, this will be very desirable.Then the user will need not remember manually to select summary file, perhaps be this unit setup parameter.This will be convenient as far as the user, and can prevent because wrong parameter is provided with the collision that is caused.
In addition, two people or many people can share a unit such as the member in the same family.Everyone can have a transmission control unit (TCU), and possibly hope in different time control by the unit of sharing.If a unit can be bound to a plurality of transmission control unit (TCU)s, this will be desirable, so that said unit can automatically link to one available in the transmission control unit (TCU), and not need the repetition binding procedure.
In addition, a kind of situation can occur, promptly transmission control unit (TCU) defines a plurality of receivers and can be used to link, and perhaps receiver defines a plurality of transmission control unit (TCU)s and can be used to link.Under these circumstances, if each transmission control unit (TCU) all automatically links to single receiver, and each receiver automatically links to single transmission control unit (TCU), and this will be desirable.This can prevent not expect the result that occurs to control a plurality of unit such as transmission control unit (TCU), and perhaps cell response is from the order of a plurality of transmission control unit (TCU)s.
Therefore, need have transmission control unit (TCU), it can automatically select the summary file about each unit of its link.Also need have receiver, it can be bound to a plurality of transmission control unit (TCU)s.Also need have transmission control unit (TCU) and receiver, said transmission control unit (TCU) only can automatically link to the single receiver in a plurality of available receivers, and said receiver only can automatically link to the single transmission control unit (TCU) in a plurality of available transmission controllers.
Summary of the invention
A kind of method that is used for confirming the output signal is provided.In said method, the wireless device identifier relevant with second wireless device is stored in first wireless device.One or more configuration parameter setting relevant with said second wireless device is stored in first wireless device.Said first wireless device is discerned second wireless device based on the wireless device identifier relevant with said second wireless device.Respond the identification of first wireless device to second wireless device, first wireless device confirms that automatically one or more configuration parameter setting relevant with said second wireless device should be used to import definite output signal based on the user.Said first wireless device is set up the Radio Communications Link with second wireless device.This first wireless device receives user's input.Be provided with and user's input based on one or more configuration parameter relevant with said second wireless device, first wireless device is confirmed the output signal.First wireless device will be exported signal through Radio Communications Link and transfer to second wireless device.
In another aspect of the present invention, provide first wireless device to be used to export signal.Said first wireless device is configured to store the wireless device identifier relevant with second wireless device.Said first wireless device is configured to store one or more configuration parameter setting relevant with said second wireless device.Said first wireless device is configured to discern second wireless device based on the wireless device identifier relevant with said second wireless device.Said first wireless device is configured to, and in response to the identification to said second wireless device, confirms that automatically one or more configuration parameter setting relevant with said second wireless device should be used to import definite output signal based on the user.Said first wireless device is configured to receive user's input.Said first wireless device is configured to, and is provided with and user's input based on one or more configuration parameter relevant with said second wireless device, confirms the output signal.Said first wireless device is configured to will to export signal through Radio Communications Link and transfers to second wireless device.
In another aspect of the present invention, provide method to be used for confirming order about the radio control receiver.Two or more identifiers are stored in the radio control transmission control unit (TCU).Each identifier all is the identifier of radio control receiver.Two or more configuration summary file are stored in transmission control unit (TCU).Each configuration summary file is relevant with a identifier in two or more identifiers.Each configuration summary file comprises one or more parameter setting.Transmission control unit (TCU) identification receiver, it has an identifier in two or more identifiers.In response to the identification of transmission control unit (TCU) to receiver, transmission control unit (TCU) is selected the configuration summary file in two or more configuration summary file, and wherein said configuration summary file is relevant with the identifier of receiver.Said transmission control unit (TCU) is set up the Radio Communications Link with receiver.Transmission control unit (TCU) receives user input commands.Said transmission control unit (TCU) is confirmed output command based on selected configuration summary file and user input commands.Said transmission control unit (TCU) transfers to receiver through Radio Communications Link with output command.
In another aspect of the present invention, provide the radio control transmission control unit (TCU) to be used for confirming order about the radio control receiver.Said radio control transmission control unit (TCU) is configured to store two or more identifiers.Each identifier all is the identifier of radio control receiver.Said radio control transmission control unit (TCU) is configured to store two or more configuration summary file.Each configuration summary file is relevant with identifier in two or more identifiers.Each configuration summary file comprises one or more parameter setting.Said radio control transmission control unit (TCU) is configured to discern receiver, and it has an identifier in two or more identifiers.Said transmission control unit (TCU) is configured to, and in response to the identification to receiver, in two or more configuration summary file, selects a configuration summary file.Said configuration summary file is relevant with the identifier of receiver.Said transmission control unit (TCU) is configured to set up Radio Communications Link with receiver.Said transmission control unit (TCU) is configured to receive user input commands.Said transmission control unit (TCU) is configured to confirm output command based on selected configuration summary file and user input commands.Said transmission control unit (TCU) is configured to through Radio Communications Link output command transferred to receiver.
Accompanying drawing is described
In order to understand the present invention and advantage thereof more all sidedly, combine the following detailed description of referenced drawings now, wherein:
Fig. 1 according to an illustrative embodiment of the invention, the assembly that the transmission control unit (TCU) of having described to be linked and receiver dispose;
Fig. 2 has described stored binding and summary file according to an illustrative embodiment of the invention;
Fig. 3 has described by the performed main procedure of receiver according to an illustrative embodiment of the invention;
Fig. 4 has described the receiver binding procedure among Fig. 3 according to an illustrative embodiment of the invention;
Fig. 5 has described the receiver chain termination process among Fig. 3 according to an illustrative embodiment of the invention;
Fig. 6 has described by the performed main procedure of transmission control unit (TCU) according to an illustrative embodiment of the invention;
Fig. 7 has described the transmission control unit (TCU) binding procedure among Fig. 6 according to an illustrative embodiment of the invention;
Fig. 8 has described the transmission control unit (TCU) link process among Fig. 6 according to an illustrative embodiment of the invention;
Fig. 9 has described the nextport hardware component NextPort of transmission control unit (TCU) according to an illustrative embodiment of the invention; And
Figure 10 has described the nextport hardware component NextPort of receiver according to an illustrative embodiment of the invention.
Detailed Description Of The Invention
In the discussion below, set forth numerous detail and understood in depth of the present invention to provide.Yet, those skilled in the art will recognize that the present invention can be implemented and do not need these details.In other cases, the form with schematic diagram or block diagram shows known elements, so that can the present invention beyonded one's depth.In addition; For most of parts, omitted concrete details and analog, this is in view of understanding fully for of the present invention obtaining; These details are considered to nonessential, and are considered to be in the understanding scope of those of ordinary skill in the association area.
The present invention can provide the link of transmission control unit (TCU) (" Tx ") to receiver (" Rx ") through transmission control unit (TCU) and the receiver that provides each can automatically store list of bindings.In the some seconds that begin most that transmission control unit (TCU) and receiver for binding before power up, can begin mutual link process.This mutual link process can automatically be linked transmission control unit (TCU) and receiver via the radio link of special use.Select to be exclusively used in the summary file of unit in a plurality of summary file that transmission control unit (TCU) can automatically be stored from transmission control unit (TCU).
In addition, said link can promote the communication between selectable external module or accessory.An external module can be coupled to transmission control unit (TCU), and another external module can be coupled to receiver.Said external module can come mutual communication through tunnel communication via link.Said tunnel communication channel can be called as " pipeline ".External module can offer the data of for example temperature, acceleration, GPS, RPM, motor controller, sound, image or video the user of transmission control unit (TCU) from said unit.
In order to discern, each can have a manufacturing ID according to transmission control unit (TCU) of the present invention and receiver.This manufacturing ID can be unique electronic signature or key, and when making transmission control unit (TCU) or receiver, said electronic signature or key can be provided for transmission control unit (TCU) or receiver.This manufacturing ID can discern said transmission control unit (TCU) or receiver uniquely about other transmission control unit (TCU) or receiver.
According to Fig. 1, what described is transmission control unit (TCU)/receiver configuration 100 according to an illustrative embodiment of the invention.This transmission control unit (TCU)/receiver configuration 100 can comprise transmission control unit (TCU) 102 and receiver 104.Through RF radio link 106, transmission control unit (TCU) 102 can be communicated by letter with receiver 104, and vice versa.Transmission control unit (TCU) 102 can be coupled to the user controls 108.Receiver 104 can be coupled to motor controller 110, servomotor 112 and user controls 114.
Transmission control unit (TCU) 102 can be stored data 116, and receiver 104 can be stored data 118.Data 116 can comprise binding with data 118, the data of promptly being stored during by binding with transmission control unit (TCU) 104 when transmission control unit (TCU) 102.Data 116 can be included in the summary file of being stored on the transmission control unit (TCU) 102.Data 118 can be included in the summary file of being stored on the receiver 104.
Transmission control unit (TCU) 102 can have the external module assembly, and its connector that has is used for selectable external module, such as transmission control unit (TCU) external module 120.Receiver 104 can have connector, is used for selectable external module, such as receiver external module 122.Transmission control unit (TCU) external module 120 can be coupled to the user through transmission control unit (TCU) 102 indirectly controls 108.Receiver external module 122 can be controlled 114 controls by the user, and it can be coupled to receiver external module 122 through receiver 104 indirectly.
Through external module communication pipe 124, transmission control unit (TCU) external module 120 can be communicated by letter with receiver external module 122, and vice versa.External module communication pipe 124 can be the tunnels bi-directional communication channel through RF radio link 106.Between transmission control unit (TCU) external module 102 and receiver external module 122 communicate by letter can be safe in utilization proprietary protocol.
Transmission control unit (TCU) external module 120 can use the information from other assemblies with receiver external module 122.This information can comprise from the user controls 108 and 114 such as the information of button, knob and switch and the setting of in data 116 or data 118, being stored.In when operation, but transmission control unit (TCU) external module 120 is made ID with 122 accesses of receiver external module, is stored summary file, about information and other information of RF radio link 106.In order to upgrade, can be used to upgrade the firmware of transmission control unit (TCU) 102 and receiver 104 by the transmission control unit (TCU) external module 120 of special link safely with by the special receiver external module 122 of link safely.Can also be got permission the firmware of access transmission control unit (TCU) 102 and receiver 104 by the external module of link safely.
Receiver external module 122 can comprise transducer, such as temperature, acceleration, GPS, RPM, motor controller, sound, image and video sensor.These transducers can be collected data, and collected data are provided to transmission control unit (TCU) external module 120, are used to feed back to the user.Can feedback be provided to the user; For example, through the holder in the memory devices, the Visual Display on the display device; Tactile feedback is such as vibration, sense of touch demonstration, sense of touch indication, and perhaps audible feedback is such as the RPM that can hear, speed, warning temperature and the sound recorded by microphone.
Receiver external module 122 can comprise operating equipment, such as shiner, loud speaker, senior Motor Control and servomotor control.These operating equipments can activate through transmission control unit (TCU) external module 120.
Use RF radio link 106 external modules that connect, possible and external module to almost can being unlimited.The third party can get a license to use by the employed proprietary communication protocol of external module.The third party can provide external module after sale, and this can increase fan's experience significantly.
Through using the user to control 108, user-operable is coupled to the unit of receiver 104.Transmission control unit (TCU) 102 soluble users control 108, and user's order is transferred to receiver 104 through RF radio link 106.Receiver 104 can be according to these command operation motor controller 110 and servomotor 112.The user can via the user control 114 use users control 108 with receiver external module 112, operate transmission control unit (TCU) external module 120 extraly.
With reference to figure 2, described is the binding of on transmission control unit (TCU) 102 and receiver 104, being stored and the diagram 200 of summary file data.Transmission control unit (TCU) 102 can be stored nearly the individual receiver of n (for example 20) and bind 202.Each receiver binds 202 can be through making ID identification receiver.Each receiver is bound 202 settings that also can comprise about channel, SOP and CRC, uses when being linked to said receiver.Transmission control unit (TCU) 102 can be stored through receiver and bind the order that the receiver of 202 identifications links recently.This order can be stored in the table of separation, by sorting from the order of using at most recently that is tied to least-recently-used binding.
Each receiver binds 202 can be relevant with particular link summary file 204.Particular link summary file 204 is set that employed parameter is provided with in one group of link between transmission control unit (TCU) 102 and specific receiver 104.Said parameter setting can comprise the setting about Control Parameter, and the configurable said Control Parameter of user is used for the specific R/C unit of receiver 104.For some receiver 104, transmission control unit (TCU) 102 can have receiver binding 202 rather than particular link summary file 204.
Receiver 104 can be stored nearly the individual transmission control unit (TCU) of m (for example 20) and bind 206.Each transmission control unit (TCU) binds 206 can be through making ID identification transmission control unit (TCU).Each transmission control unit (TCU) is bound 206 settings that also can comprise about channel, SOP and CRC, uses when being linked to said transmission control unit (TCU).Receiver 104 can be stored through transmission control unit (TCU) and bind the order that the transmission control unit (TCU) of 206 identifications links recently.This order can be stored in the table of separation, by sorting from the order of using at most recently that is tied to least-recently-used binding.
Receiver 104 can also be stored particular model summary file 208.Particular model summary file 208 can be one group of general driving parameters setting, and the particular drive summary file that manufacturer designed by unit receiver 104 perhaps is installed, so that optimize the driving of model of element is experienced.Except that other parameters were provided with, particular model summary file 208 can comprise that the failure safe of former factory default settings, customization is set and the Control Parameter setting of motor controller.Can provide maintenance function the particular link summary file 204 of the current receiver that is linked 104 to be reset to particular model summary file 208 to allow the user.
If the quantity of the receiver of transmission control unit (TCU) 102 binding 202 reaches maximum quantity n; If perhaps the transmission control unit (TCU) of receiver 104 is bound 206 quantity and reached maximum quantity m, then transmission control unit (TCU) 102 or receiver 104 may not add new binding 202 or 206 and do not substitute existing binding 202 or 206.In this case, transmission control unit (TCU) 102 or receiver 104 common alternative least-recently-used bindings 202 or 206.When having substituted receiver and bind 202, transmission control unit (TCU) 102 can also substitute relevant particular link summary file 204.
If user expectation keeps binding 202 or 206 it is not replaced, then this user can " lock " said binding 202 or 206.Transmission control unit (TCU) 102 or receiver 104 can or be ignored blocked binding 202 or 206 at 206 o'clock in definite least-recently-used binding 202.Therefore, new binding 202 or 206 substitutes binding 202 or 206 least-recently-used, non-locking.
For the receiver of being bound before transmission control unit (TCU) 102 is linked to 104, the two powers up the user for transmission control unit (TCU) 102 and receiver 104 simply in (for example 10 seconds) at the fixed time.The user can be that transmission control unit (TCU) 102 powers up with receiver 104 by any order.Transmission control unit (TCU) 102 can have the receiver that is used for receiver 104 and bind 202, and receiver 104 can have the transmission control unit (TCU) binding 206 that is used for transmission control unit (TCU) 104.Transmission control unit (TCU) 102 can find mutually with receiver 104, and they have the binding 202 and 206 about each other, but and AutoLink.Therefore, when transmission control unit (TCU) 102 and the receiver of before the user gives, being bound 104 powered up, said unit can automatically, almost immediately receive user's control fully.
Link process can be performed as follows.At first, receiver 104 can be broadcasted and comprised the linking request signal that it makes ID.Transmission control unit (TCU) 102 can receive the linking request signal, and makes ID by receiver 104 and confirm whether transmission control unit (TCU) 102 is bound to receiver 104.If transmission control unit (TCU) 102 is not tied to receiver 104, then transmission control unit (TCU) 102 can not respond said linking request signal, and can continue to listen attentively to the linking request signal.
If transmission control unit (TCU) 102 is bound to receiver 104, then transmission control unit (TCU) 102 can respond to comprise the link response signal that it makes ID.Receiver 104 can receive the link response signal, and makes ID by transmission control unit (TCU) 102 and confirm whether receiver 104 is bound to transmission control unit (TCU) 102.If receiver 104 is not tied to transmission control unit (TCU) 102, then receiver 104 can not respond said link response signal, and can continue broadcasting link request signal.
If receiver 104 is bound to transmission control unit (TCU) 102, then receiver 104 can come the chains response signal through the transmissions links confirmation signal.After receiver 104 transmissions links confirmation signals and transmission control unit (TCU) 102 reception link confirmation signals, transmission control unit (TCU) 102 is linked with receiver 104, and transmission control unit (TCU) 102 can be with command transfer to receiver 104.
Said link process can be changed; To give transmission control unit (TCU) 102 preference; Be used to let this transmission control unit (TCU) 102 link receiver 104 of its last link or binding, and give receiver 104 preference, be used to the transmission control unit (TCU) 102 that lets this its link at last of receiver 104 links or bind.Transmission control unit (TCU) 102 can be confirmed the binding that it has effectively, uses at last, and before waiting for linking request, with PWM (pulse-width modulation) data packet transmission to the receiver 104 relevant with said binding.Receiver 104 can be confirmed the binding that it has effectively, uses at last, and before the transmissions links request, waits for the PWM packet from the transmission control unit (TCU) 102 relevant with said binding.If receiver 104 receives the PWM packet, but receiver 104 transmissions links confirmation signals.After transmission PWM packet, except waiting for the linking request signal, transmission control unit (TCU) 102 also can be waited for the link confirmation signal from corresponding receiver 104.If transmission control unit (TCU) 102 receives the link confirmation signal from receiver 104, transmission control unit (TCU) 102 is linked with receiver 104, and transmission control unit (TCU) 102 can be with command transfer to receiver 104.
In order to communicate by letter, transmission control unit (TCU) 102 possibly reached an agreement to channel, SOP (packet start coding) and CRC (CRC) with receiver 104.As far as binding, channel, SOP and CRC can be predetermined and special-purpose.Similarly, channel, SOP and CRC can be predetermined and special-purpose, be used for transmission and receive linking request, and transmission and reception link response.As far as about from by the communicating by letter subsequently of transmission control unit (TCU) that has not also been linked since binding and receiver, receiver can transmit SOP as the part of linking request.Transmission control unit (TCU) can be selected suitable channel, and at the link response duration it is sent.Can form through the manufacturing ID of combination of transmitted controller and the manufacturing ID of receiver about ambilateral CRC.In case for given transmission control unit (TCU)-receiver as far as, channel, SOP and CRC are known, then this channel, SOP and CRC can be used as on every aspect a part of binding separately and are stored.When linking transmission control unit (TCU) and receiver, these values of from bind, taking out can be by automatic use next time.
Transmission control unit (TCU) 102 can be confirmed that transmission control unit (TCU) 102 has and its receiver is bound a plurality of receivers 104 of 202 can be used for link.In this case, transmission control unit (TCU) 102 can be tied to and become the receiver 104 that can be used for linking at first.When for example powering up for a plurality of receivers 104 in the identical time, this situation possibly appear.Binding to available at first receiver 104 can produce from proper what a transmission control unit (TCU) 102 to just unique link of what a receiver 104.
Similar ground, receiver 104 can be confirmed that receiver 104 has and its transmission control unit (TCU) is bound a plurality of transmission control unit (TCU)s 102 of 206 can be used for link.In this case, receiver 104 can be tied to and become the transmission control unit (TCU) 102 that can be used for linking at first.When for example powering up for a plurality of transmission control unit (TCU)s 102 in the identical time, this situation possibly appear.Again, the binding to available at first transmission control unit (TCU) 102 can produce from proper what a transmission control unit (TCU) 102 to just unique link of what a receiver 104.
If transmission control unit (TCU) 102 has particular link summary file 204, and this particular link summary file 204 with bind 202 relevantly about the receiver of receiver 104, in a single day then set up link 106, transmission control unit (TCU) 102 can use this summary file automatically.For instance, experienced user " father " and inexperienced user " son " can have the transmission control unit (TCU) 102 of separation but share individual unit 204.Unit 204 can have the high performance mode that supplies the expert user to use, and the training mode that supplies the rawness user to use.
In operating unit, father can be set to high performance mode with this unit.Then father's transmission control unit (TCU) 102 can be bound 202 with the receiver that is used for unit receiver 104 and is associated with the particular link summary file 204 that is used for high performance mode.Next time, when becoming a father father's transmission control unit (TCU) 102 with said cell link, this transmission control unit (TCU) 102 can use high performance mode automatically.Similar ground, in operating unit, son can be set to training mode with this unit.Son's transmission control unit (TCU) 102 can be bound 202 with the receiver that is used for the unit receiver and be associated with the particular link summary file 204 that is used for training mode.Next time, when son with son's transmission control unit (TCU) 102 during with said cell link, this transmission control unit (TCU) 102 can use training mode automatically.
Each particular link summary file 204 can be relevant with specific receiver binding 202.Therefore, if father and son use their transmission control unit (TCU) to operate other unit, and revise the summary file that is used for these unit, then relevant with first module particular link summary file maybe not can change.Father's transmission control unit (TCU) 102 always can automatically use high performance mode, and 102 of son's transmission control unit (TCU)s always can automatically use training mode, no matter whether once operates other unit with this transmission control unit (TCU).
This example can be expanded more than two transmission control unit (TCU)s 102 (" father's ", " son's ", " daughter's ", " mother's ", " uncle's ", or the like), and said transmission control unit (TCU) 102 is relevant with individual unit.When any transmission control unit (TCU) in the transmission control unit (TCU) 102 was powered up, the particular link summary file 204 that is used for the transmission control unit (TCU) 102 of unit receiver 104 can be loaded and operate.If a plurality of transmission control unit (TCU)s 102 were powered up on the approximately uniform time, then receiver 104 can be linked to transmission control unit (TCU) 102 by the order that transmission control unit (TCU) is powered up.
Transmission control unit (TCU) according to an illustrative embodiment of the invention and receiver can provide full automatic link process, and it is transparent to the user.The user can use usual manner that transmission control unit (TCU) at first is linked to receiver.According to the present invention, transmission control unit (TCU) can be created the receiver that is used for receiver and bind, and said binding is associated with the summary file that is used for receiver.Receiver can be created the binding that is used for transmission control unit (TCU).Then, the user can open the power supply of transmission control unit (TCU) simply, opens the power supply of receiver subsequently.The summary file that is stored on the transmission control unit (TCU) before the user almost can use is immediately come operating unit, and said summary file is unique for receiver.
With reference to figure 3, described be used for according to an illustrative embodiment of the invention, about the process 300 of receiver operation.When step 302 powers up to receiver, can begin process 300.
From step 302 beginning, process 300 can continue step 304, can confirm in this step whether external module is connected to receiver.If connected external module, then step 300 can proceed to step 306, and in this step, the applications process that is used for connected external module can be initialised.If do not connect external module, perhaps after step 306, process 300 can proceed to step 308.
In step 308, can confirm whether the link switch on the receiver is pressed.This link switch can allow the user to confirm whether receiver should bind available transmission control unit (TCU).If the link switch is pressed, then process 300 can continue step 312, can be tied to available transmission control unit (TCU) at this step receiver.According to Fig. 4, step 312 is described with more details.
After receiver was bound with transmission control unit (TCU) in step 312, if perhaps do not press the link switch in step 308, then process 300 can proceed to step 314.In step 314, the transmission control unit (TCU) of being bound before receiver can be linked to.According to Fig. 5, step 314 is described with more details.After step 314, receiver can be communicated by letter with transmission control unit (TCU) in step 316.
With reference to figure 4, it has described the step 312 of process 300 with more details.Step 312 can begin in step 402.In step 402, can link channel, SOP and CRC be set at designated value, said designated value is used for the binding with transmission control unit (TCU).
In step 404, receiver can transmit bind request about the time ratio such as the 5ms of specified quantitative.This can be set in 5ms expiration and till this bindings cycle timer expiration, all transmit bind request before and realize through binding cycle timer.In step 406, receiver can be waited for the response of bind request about the time ratio such as the 5ms of specified quantitative.This can be set in 5ms expiration and all keep wait to realize up to receiving till binding response or the expiration of said binding cycle timer through binding cycle timer.
In step 408, can confirm whether receiver receives the binding response in step 406.Bind response if receiver receives, then step 312 can continue step 410.Do not bind response if receiver receives, then step 312 can be got back to step 404.
In step 410, can confirm whether receiver has had the transmission control unit (TCU) that is used for transmission control unit (TCU) and bound, said transmission control unit (TCU) has transmitted binds response.Can make above-mentioned definite through relatively being included in the manufacturing ID and the manufacturing ID in the binding of each transmission control unit (TCU) that bind in the response.If do not exist the transmission control unit (TCU) that is used for transmission control unit (TCU) to bind as yet, then should preserve new transmission control unit (TCU) and bind.Step 312 can continue step 414.Bind if transmission control unit (TCU) has had the receiver that is used for receiver, can think that then this transmission control unit (TCU) has been bound to receiver, and can stop step 612.
In step 412, can new transmission control unit (TCU) be bound and be saved in receiver EEPROM.After step 412, can stop step 312.
In step 414, can confirm whether the transmission control unit (TCU) list of bindings in the receiver is full.If it is full to tabulate, then can bind to substitute transmission control unit (TCU) least-recently-used, non-locking with new transmission control unit (TCU) and bind in step 416, said new transmission control unit (TCU) is bound and has been used to transmit the transmission control unit (TCU) of binding response.If tabulation less than, then bind and can in step 418, be saved in the next open entries in the tabulation about having transmitted transmission control unit (TCU) transmission control unit (TCU), new of binding response.Preserved after new transmission control unit (TCU) binds in step 416 or step 418, step 312 can proceed to step 412.
With reference to figure 5, it has described the step 314 of process 300 with more details.Step 314 can begin in step 502.In step 502, the link establishment timer can be set to expiration in 10 seconds.Can be contemplated that then receiver arrives transmission control unit (TCU) in this time internal chaining.After step 502, step 314 can continue step 504.
In step 504, can confirm whether receiver has effectively last (being used recently) transmission control unit (TCU) that uses and bind.The then last transmission control unit (TCU) that uses is bound and can be discerned transmission control unit (TCU), and said transmission control unit (TCU) is exactly the last transmission control unit (TCU) that links or bind of receiver.Bind if receiver has the effectively last transmission control unit (TCU) that uses, then step 314 can continue step 506.
In step 506, receiver can be set to the value in the transmission control unit (TCU) binding of in the end using with channel, SOP and CRC.After having disposed receiver, this receiver can be waited for the time ratio such as the 5ms of specified quantitative, and its PWM packet is controlled in wait from said transmission.This can expire through the link cycle timer is set in 5ms, and up to receive the PWM packet from transmission control unit (TCU), all waits for before till the perhaps said link cycle timer expiration and realizing.Any signal from other transmission control unit (TCU)s can be left in the basket.Sending the transmission control unit (TCU) of PWM packet can discern through its manufacturing ID in request.
In step 508, can confirm whether the linking request of coming the free last transmission control unit (TCU) that uses to bind the transmission control unit (TCU) of being discerned is received in step 506.If received such linking request, then step 314 can proceed to step 510.
In step 510, receiver can be configured to come transmissions links to confirm in response to the PWM packet.This configuration can realize through the value that channel, SOP and CRC are set in the linking request.
In step 512, receiver can be about the time of specified quantitative, and the affirmation of linking request is transferred to transmission control unit (TCU).This expires through the link cycle timer is set in 5ms, and all transmits said affirmation before till the link cycle timer expiration and realize.In step 513, receiver can be configured to communicate by letter with transmission control unit (TCU) subsequently, and said transmission control unit (TCU) is discerned through the transmission control unit (TCU) of last use.Value during this configuration can be bound through the transmission control unit (TCU) that channel, SOP and CRC is set at last use realizes.After step 513, can stop step 314.Receiver then can be considered to be linked to transmission control unit (TCU) with the transmission control unit (TCU) binding of last use.
Do not have the effectively last transmission control unit (TCU) binding of using in step 504 if confirm receiver, perhaps do not receive linking request from the transmission control unit (TCU) of being discerned by the binding the step 506, then step 314 can proceed to step 514.In step 514, receiver can be configured to the transmissions links request.This configuration can realize through the value that channel, SOP and CRC are set at corresponding to the transmissions links request.After receiver was configured, receiver can be about the time ratio such as the request of 5ms transmissions links of specified quantitative.This can expire through the link cycle timer is set in 5ms, and before till the link cycle timer expiration all the transmissions links request realize.In step 516, receiver can transmit said linking request.
In step 518, receiver can wait the response from the linking request of being bound transmission control unit (TCU) to transmission in step 514 about the time ratio such as the 5ms of specified quantitative.This expires through the link cycle timer is set in 5ms, and up to being received the response to linking request from binding transmission control unit (TCU), perhaps all waits for before till the expiration of link cycle timer and realizing.Any response from not binding transmission control unit (TCU) can be left in the basket.Whether response comes from by the binding transmission control unit (TCU) can be confirmed through the manufacturing ID during relatively the manufacturing ID in request and each transmission control unit (TCU) are bound.
In step 520, can determine whether to have been received response from binding transmission control unit (TCU).If received response, then in step 522, send the transmission control unit (TCU) of the transmission control unit (TCU) of response and bind the transmission control unit (TCU) binding that can be set to last use.The transmission control unit (TCU) of said last use is bound can be saved to receiver EEPROM.After step 522, can stop step 314.Said receiver can be considered to be linked to the transmission control unit (TCU) that sends response.
If confirm in step 520, not received response from binding transmission control unit (TCU), then step 314 can proceed to step 524.In step 524, can confirm whether the link establishment timer of in step 502, setting expires.If the link establishment timer is not expiration as yet, then step 314 can be back to step 504.
If the link establishment timer expires, then step 314 can proceed to step 526.In step 526, can confirm whether receiver has the effectively last transmission control unit (TCU) that uses and bind.If there is not this binding, then can confirm to set up link.Step 314 can proceed to step 530, can suspend in this step process 300.
If confirm that receiver has the effectively last transmission control unit (TCU) binding of using in step 526, then step 314 can proceed to step 528.In step 528, receiver can be configured to utilize the transmission control unit (TCU) of last use to bind the link that is established to transmission control unit (TCU).This configuration can realize through channel, SOP and CRC being set to the value of being preserved in the transmission control unit (TCU) binding of in the end using.After step 528, can stop step 314.Receiver can be considered to be linked to by default value the transmission control unit (TCU) of last use.
With reference to figure 6, its described according to an illustrative embodiment of the invention, about the process 600 of the operation of transmission control unit (TCU).When step 602 powers up to transmission control unit (TCU), can begin process 600.
From step 602 beginning, process 600 can continue step 604, can confirm in this step whether external module is connected to transmission control unit (TCU).If connected external module, then process 600 can proceed to step 606, and the applications process that is used for connected external module in this step can be initialised.If do not connect external module, perhaps after step 606, process 600 can proceed to step 608.
In step 608, can confirm whether the configuration switch on the receiver is pressed.This configuration switch can allow the user to confirm whether transmission control unit (TCU) should be tied to available receiver.If configuration switch is pressed, then process 600 can proceed to step 612, can be tied to available receiver at this step transmission control unit (TCU).According to Fig. 7, step 612 is described with more details.
After receiver and transmission control unit (TCU) were bound in step 612, if perhaps do not press configuration switch in step 608, then process 600 can proceed to step 614.In step 614, the receiver of being bound before transmission control unit (TCU) can be linked to.According to Fig. 8, step 614 is described with more details.After step 614, receiver can be communicated by letter with transmission control unit (TCU) in step 616
With reference to figure 7, it has described the step 612 of process 600 with more details.Step 612 can begin in step 702.In step 702, can bound channels, SOP and CRC be set at designated value, be used for binding with receiver.In step 704, said transmission control unit (TCU) can be waited for the bind request from receiver.
In step 708, transmission control unit (TCU) can transmit the binding response to bind request about the time ratio such as the 5ms of specified quantitative.This can be set in 5ms and expire through binding cycle timer, and all transmit to bind to respond before till this binding cycle timer expiration and realize.
In step 710, can confirm whether transmission control unit (TCU) has had the receiver that is used for receiver and bound, and said receiver has transmitted bind request in step 704.Can make above-mentioned definite through manufacturing ID and the manufacturing ID in the binding of each receiver that relatively is included in the bind request.Bind if transmission control unit (TCU) has had the receiver that is used for receiver, can think that then this transmission control unit (TCU) has been bound to receiver, and can stop step 612.
If exist the receiver that is used for receiver to bind as yet, then should be receiver and preserve new receiver binding.Step 612 can proceed to step 712.In step 712, can confirm whether the receiver list of bindings in the transmission control unit (TCU) is full.If it is full to tabulate, then in step 714, for the receiver that has transmitted bind request, available new receiver is bound to substitute receiver least-recently-used, non-locking and is bound.If tabulation less than, then bind and can in step 716, be saved in the next open entries in the tabulation about the new receiver of the receiver that transmitted bind request.When new transmission control unit (TCU) be bundled in step 714 or the step 716 preserved after, step 612 can proceed to step 718.
In step 718, new receiver is bound can be saved to the transmission control unit (TCU) flash memory.After step 718, can stop step 612.Transmission control unit (TCU) then can be considered to be tied to transmitted binds the receiver that responds.
With reference to figure 8, it has described the step 614 of process 600 with more details.Step 614 can begin in step 802.In step 802, the link establishment timer can be set to expiration in 10 seconds.Can expect that transmission control unit (TCU) arrives receiver in this time internal chaining.After step 802, step 614 can proceed to step 804.
In step 804, can confirm whether transmission control unit (TCU) has effectively last (being used recently) receiver that uses and bind.The receiver that uses is at last bound can discern receiver, and said receiver is exactly the receiver of last link of transmission control unit (TCU) or binding.Bind if transmission control unit (TCU) has the effectively last receiver that uses, then step 614 can proceed to step 806.Do not bind if transmission control unit (TCU) does not have the effectively last receiver that uses, then step 614 can proceed to step 808.
In step 806, transmission control unit (TCU) can scan about disturbing the channel to last use.Can confirm in step 810 whether the last channel that uses is occupied.If the last channel that uses is unoccupied, then step 614 can proceed to step 812.If the last channel that uses is occupied, then step 614 can proceed to step 808.
In step 812, transmission control unit (TCU) can load the particular link summary file, and it binds relevant with the last transmission control unit (TCU) that uses.In step 814, transmission control unit (TCU) can be configured to utilize the transmission control unit (TCU) of last use to bind the link that is established to receiver.The value that this configuration is preserved in can binding through the transmission control unit (TCU) that channel, SOP and CRC is set to last use realizes.
In step 816, transmission control unit (TCU) can be about the time of specified quantitative, such as 5ms with the PWM data packet transmission to receiver, said receiver is bound identification by the transmission control unit (TCU) of last use.This can expire through the link cycle timer is set in 5ms, and all transmits the PWM packet before till the link cycle timer expiration and realize.The PWM packet can comprise the intended recipinent manufacturing ID that is used to discern intended recipinent.After having transmitted the PWM packet, step 614 can proceed to step 808.
In step 808, transmission control unit (TCU) can be configured to be established to any link of being bound receiver.This configuration can realize through channel, SOP and CRC being set at and being established to any corresponding value of link of being bound receiver.
In step 818, transmission control unit (TCU) can wait for from the linking request of being bound receiver about the time ratio of specified quantitative such as 5ms, or waits for that (if any) is to the affirmation in the linking request of step 816 transmission.This can expire through the link cycle timer is set in 5ms, and up to receiving linking request from the receiver of being bound, receives affirmation, perhaps all waits for before till the expiration of link cycle timer and realizing.
Any linking request from not binding receiver can be left in the basket.Sending the receiver of linking request can discern through the manufacturing ID in the request.Said manufacturing ID can compare with the manufacturing ID during each receiver is bound, so that confirm whether this receiver is bound to transmission control unit (TCU).When transmission control unit (TCU) receives from the linking request or the affirmation of being bound receiver, if perhaps during the time of specified quantitative expiration, step 614 can proceed to step 820.
In step 820, can confirm that whether transmission control unit (TCU) receives from the linking request of being bound receiver, perhaps receives the affirmation to any linking request of in step 818, being transmitted.If transmission control unit (TCU) receives from the linking request of being bound receiver, then step 614 can proceed to step 822.If receiving link, transmission control unit (TCU) confirms that then step 614 can proceed to step 824.If transmission control unit (TCU) had not both received from the linking request of being bound receiver, do not receive link yet and confirm that then step 614 can proceed to step 826.
In step 822, the receiver that is used to send the receiver of linking request is bound the receiver that can be set to last use and is bound.The receiver binding that should use at last can be saved to transmission control unit (TCU) EEPROM.But transmission control unit (TCU) scan empty channel is communicated by letter with receiver so that be used for.
In step 828, transmission control unit (TCU) can will link response transmission to the receiver that has sent linking request about the time ratio such as the 5ms of specified quantitative.This can expire through the link cycle timer is set in 5ms, and before till the link cycle timer expiration all transmissions links respond and realize.
In step 830, transmission control unit (TCU) can load the particular link summary file, and it binds relevant with the last transmission control unit (TCU) that uses.Transmission control unit (TCU) can be configured to set up link with the receiver that has sent linking request.Value during this configuration can be bound through the receiver that channel, SOP and CRC is set at the receiver that sends linking request realizes that said receiver sends linking request.After step 830, can stop step 614.Receiver can be considered to be linked to the receiver that has sent linking request.
In step 824, transmission control unit (TCU) can be configured to be established to the link of receiver, and said receiver is discerned by the receiver binding of last use.This configuration can realize through the value that channel, SOP and CRC is set in the receiver binding of in the end using.After step 824, can stop step 614.Transmission control unit (TCU) can be considered to be linked to the receiver of being bound identification by the receiver of last use.
In step 832, transmission control unit (TCU) can confirm whether the link establishment timer of in step 802, setting expires.If this link establishment timer does not expire, then step 614 can proceed to step 834.If the link establishment timer expires, then step 614 can proceed to step 836.
In step 834, can confirm whether transmission control unit (TCU) has the effectively last transmission control unit (TCU) that uses and bind.Bind if transmission control unit (TCU) has the effectively last transmission control unit (TCU) that uses, then step 614 can proceed to step 814.Do not bind if transmission control unit (TCU) does not have the effectively last transmission control unit (TCU) that uses, then step 614 can proceed to step 808.
In step 836, can confirm whether transmission control unit (TCU) has the effectively last transmission control unit (TCU) that uses and bind.Do not bind if transmission control unit (TCU) does not have the effectively last transmission control unit (TCU) that uses, can confirm to set up link.Step 614 can continue step 838, can suspend in this step process 600.
If confirm that in step 836 transmission control unit (TCU) has the effectively last receiver that uses and binds, can confirm that then transmission control unit (TCU) should be linked to receiver by default value, said receiver is bound identification by the receiver of last use.Step 830 can proceed to step 824.
With reference to figure 9, it has described the block diagram of the nextport hardware component NextPort of transmission control unit (TCU) 102 according to an illustrative embodiment of the invention.Many assemblies in the transmission control unit (TCU) 102 can be the conventional assemblies that is known in the art.
Transmission control unit (TCU) 102 can have the nonvolatile storage tables of data 902 of EEPROM and flash memory.Tables of data 902 can be via data and address bus 904 accesses.Tables of data 902 can be included in the receiver binding 202 and particular link summary file 204 among Fig. 2.Write circulation because EEPROM has than flash memory is more, bind 202 so EEPROM can store the receiver of last use, flash memory can be stored every other receiver binding simultaneously.Serial Peripheral Interface (SPI) (SPI I/F) 906 can provide the interface that is provided to receiver 104 through radio module 907 and RF radio link 106.Internal integrated circuit (I2C) 908 can be provided to the interface of connected transmission control unit (TCU) external module 120.Receiver 104, RF radio link 106 and transmission control unit (TCU) external module 120 show that with dotted line this is because they are not the assemblies of transmission control unit (TCU) 102.
With reference to Figure 10, it has described the block diagram of the nextport hardware component NextPort of receiver 104 according to an illustrative embodiment of the invention.Many assemblies in the receiver 104 can be conventional assemblies as known in the art.
Receiver 104 can have EEPROM nonvolatile storage tables of data 1002.Tables of data 1002 can be via data and address bus 1004 accesses.Tables of data 1002 can comprise the transmission control unit (TCU) binding 206 and particular model summary file 208 among Fig. 2.Flash memories 1003 rather than tables of data 1002 can comprise the most recently used transmission control unit (TCU) and bind 206, make that the last transmission control unit (TCU) binding of using 206 can be by access more quickly.Serial Peripheral Interface (SPI) (SPI I/F) 1006 can be provided to the interface of transmission control unit (TCU) 102 through radio module 1007 and RF radio link 106.Internal integrated circuit (I2C) 1008 can be provided to the interface of connected receiver external module 122.Transmission control unit (TCU) 102, RF radio link 106 and receiver external module 122 show that with dotted line this is because they are not the assemblies of receiver 104.
Ease for use when the present invention can be provided at link transmission control unit (TCU) and receiver intuitively.The attainable significant advantage of user is, can be with the configuration AutoLink transmission control unit (TCU) and the receiver of multi-to-multi.Each all has among a plurality of users of transmission control unit (TCU) separately any one, can select any one in a plurality of unit, for user's transmission control unit (TCU) and unit powers up, and the beginning operating said unit.The AutoLink repulsion can guarantee not have other users that bound can intervene said unit.The user can be linked to the unit with transmission control unit (TCU) easily, and needn't in screen or menu, navigate to find out correct summary file or model.
Though described the present invention, do not meant that and to explain these descriptions with restrictive meaning according to specific execution mode.Through with reference to description of the invention, as far as those of skill in the art, the various modification of disclosed execution mode and alternate embodiment of the present invention will become obvious.Therefore imagine, claim falls within true scope of the present invention and interior any such modification or the execution mode of spirit with covering.

Claims (28)

1. one kind is used for definite method of exporting signal, comprising:
The storage wireless device identifier relevant in first wireless device with second wireless device;
One or more configuration parameter that storage is relevant with said second wireless device in said first wireless device is provided with;
Said first wireless device is discerned said second wireless device based on the said wireless device identifier relevant with said second wireless device;
Discern said second wireless device in response to said first wireless device, said first wireless device confirms that automatically said one or more configuration parameter setting relevant with said second wireless device should be used to import definite output signal based on the user;
Said first wireless device and said second wireless device are set up Radio Communications Link;
Said first wireless device receives said user's input;
Said first wireless device is confirmed said output signal based on following item:
Said one or more configuration parameter relevant with said second wireless device is provided with;
And
Said user's input; And
Said first wireless device transfers to said second wireless device through said Radio Communications Link with said output signal.
2. the method for claim 1, wherein said first wireless device confirms that said output signal comprises: determine whether to revise said user's input based in being provided with relevant said one or more configuration parameter of said second wireless device one or more based on said one or more configuration parameter setting relevant with said second wireless device.
3. the method for claim 1, wherein said first wireless device confirms that said output signal comprises: one or more in being provided with based on said one or more configuration parameter relevant with said second wireless device revised said user's input.
4. the method for claim 1 also comprises:
The a plurality of wireless device identifiers of storage in said first wireless device, said a plurality of wireless device identifiers comprise the identifier of said second wireless device; And
The a plurality of configuration parameter settings of storage in said first wireless device, said a plurality of configuration parameter settings comprise said one or more configuration parameter setting relevant with said second wireless device.
5. the method for claim 1, wherein said first wireless device comprises the radio control transmission control unit (TCU) that is used for radio control unit.
6. the method for claim 1, wherein said second wireless device comprises the radio control receiver that is used for radio control unit.
7. one kind is used for definite first wireless device of exporting signal, and said first wireless device is configured to:
Store the wireless device identifier relevant with second wireless device;
Storing one or more configuration parameter relevant with said second wireless device is provided with;
Said wireless device identifier based on relevant with said second wireless device is discerned said second wireless device;
In response to said second wireless device of identification, confirm that automatically said one or more configuration parameter setting relevant with said second wireless device should be used to import definite output signal based on the user;
Set up Radio Communications Link with said second wireless device;
Receive said user's input;
Confirm said output signal based on following item:
Said one or more configuration parameter relevant with said second wireless device is provided with; And
Said user's input; And
Through said Radio Communications Link said output signal is transferred to said second wireless device.
8. first wireless device as claimed in claim 7 confirms that wherein the configuration of said output signal comprises: determine whether to revise the configuration that said user imports based in being provided with relevant said one or more configuration parameter of said second wireless device one or more based on said one or more configuration parameter setting relevant with said second wireless device.
9. first wireless device as claimed in claim 7, confirm that wherein the configuration of said output signal comprises: one or more in being provided with based on said one or more configuration parameter relevant with said second wireless device revised the configuration of said user's input.
10. first wireless device as claimed in claim 7, wherein said first wireless device also is configured to:
Store a plurality of wireless device identifiers, said a plurality of wireless device identifiers comprise the identifier of said second wireless device; And
Store a plurality of configuration parameter settings, said a plurality of configuration parameter settings comprise said one or more configuration parameter setting relevant with said second wireless device.
11. first wireless device as claimed in claim 7, wherein said first wireless device comprises the radio control transmission control unit (TCU) that is used for radio control unit.
12. first wireless device as claimed in claim 7, wherein said second wireless device comprises the radio control receiver that is used for radio control unit.
13. a method that is used to confirm be used for the order of radio control receiver comprises:
The a plurality of identifiers of storage in the radio control transmission control unit (TCU), each identifier comprises the identifier of radio control receiver;
The a plurality of configuration summary file of storage in said transmission control unit (TCU), each configuration summary file is relevant with a identifier in said a plurality of identifiers, and each disposes summary file and comprises one or more parameter setting;
Said transmission control unit (TCU) identification receiver, said receiver has the identifier in said a plurality of identifier;
Discern said receiver in response to said transmission control unit (TCU), said transmission control unit (TCU) is chosen in the configuration of one in said a plurality of configuration summary file summary file, and said configuration summary file is relevant with the identifier of said receiver;
Said transmission control unit (TCU) and said receiver are set up Radio Communications Link;
Said transmission control unit (TCU) receives user input commands;
Said transmission control unit (TCU) is confirmed output command based on selected configuration summary file and said user input commands; And
Said transmission control unit (TCU) transfers to said receiver through said Radio Communications Link with said output command.
14. method as claimed in claim 13 also comprises: said receiver transfers to radio control unit with said output command.
15. method as claimed in claim 13, wherein said transmission control unit (TCU) confirm that said output command comprises: the configuration summary file based on said selection determines whether to revise said user input commands based on the configuration summary file of said selection.
16. method as claimed in claim 13, wherein said transmission control unit (TCU) confirm that said output command comprises: the configuration summary file based on said selection is revised said user input commands.
17. method as claimed in claim 13, the configuration summary file of wherein said selection is confirmed the direction of rotation of servomotor.
18. method as claimed in claim 13, the configuration summary file of wherein said selection is confirmed turning to of radio control unit.
19. method as claimed in claim 13, the configuration summary file of wherein said selection is confirmed the throttling of radio control unit.
20. method as claimed in claim 13, the configuration summary file of wherein said selection confirm that the servomotor of radio control unit is reverse, steering sensitivity, throttling sensitivity, percentage of turns, braking percentage, throttling fine setting, turn to terminal point, throttling terminal point, turn at least one in auxiliary fine setting and the auxiliary fine setting of throttling.
21. a radio control transmission control unit (TCU) that is used to confirm be used for the order of radio control receiver, said radio control transmission control unit (TCU) is configured to:
Store a plurality of identifiers, each identifier comprises the identifier of a radio control receiver;
Store a plurality of configuration summary file, each configuration summary file is relevant with a identifier in said a plurality of identifiers, and each disposes summary file and comprises one or more parameter setting;
Identification has the receiver of the identifier in said a plurality of identifier;
In response to the said receiver of identification, select the configuration of one in said a plurality of configuration summary file summary file, said configuration summary file is relevant with the identifier of said receiver;
Set up Radio Communications Link with said receiver;
Receive user input commands;
Confirm output command based on selected configuration summary file and said user input commands; And
Through said Radio Communications Link said output command is transferred to said receiver.
22. radio control transmission control unit (TCU) as claimed in claim 21, wherein said transmission control unit (TCU) also is configured to:
Through said Radio Communications Link and said receiver said output command is transferred to radio control unit.
23. radio control transmission control unit (TCU) as claimed in claim 21 confirms that wherein the configuration of said output command comprises: determine whether to revise based on the configuration summary file of said selection the configuration of said user input commands based on the configuration summary file of said selection.
24. radio control transmission control unit (TCU) as claimed in claim 21 confirms that wherein the configuration of said output command comprises: revise the configuration of said user input commands based on the configuration summary file of said selection.
25. radio control transmission control unit (TCU) as claimed in claim 21, the configuration summary file of wherein said selection is confirmed the direction of rotation of servomotor.
26. radio control transmission control unit (TCU) as claimed in claim 21, the configuration summary file of wherein said selection is confirmed turning to of radio control unit.
27. radio control transmission control unit (TCU) as claimed in claim 21, the configuration summary file of wherein said selection is confirmed the throttling of radio control unit.
28. radio control transmission control unit (TCU) as claimed in claim 21, the configuration summary file of wherein said selection confirm that the servomotor of radio control unit is reverse, steering sensitivity, throttling sensitivity, percentage of turns, braking percentage, throttling fine setting, turn to terminal point, throttling terminal point, turn at least one in auxiliary fine setting and the auxiliary fine setting of throttling.
CN2010102799542A 2010-09-09 2010-09-09 Automatic determination method for setting of configuration parameter of radio control unit Pending CN102404712A (en)

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Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20050048918A1 (en) * 2003-08-29 2005-03-03 Onami, Llc Radio controller system and method for remote devices
CN102088739A (en) * 2009-09-10 2011-06-08 特拉克赛卡斯公司 Automatic determination of radio control unit configuration parameter settings

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20050048918A1 (en) * 2003-08-29 2005-03-03 Onami, Llc Radio controller system and method for remote devices
CN102088739A (en) * 2009-09-10 2011-06-08 特拉克赛卡斯公司 Automatic determination of radio control unit configuration parameter settings

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Application publication date: 20120404