CN109769324B - LED lamp remote control device, LED lamp control card and LED lamp control method - Google Patents

Abstract

The embodiment of the invention provides an LED lamp remote control device, an LED lamp control card and an LED lamp control method, wherein the LED lamp remote control device comprises: the system comprises a remote communication module used for carrying out bidirectional communication connection with an LED lamp control card, a remote negotiation module used for generating a network speed negotiation instruction and sending the network speed negotiation instruction to the LED lamp control card, and a remote adjusting module used for determining an adopted target network speed parameter according to the LED lamp control card and adjusting the network speed parameter of the remote communication module into the target network speed parameter. According to the embodiment of the invention, the remote negotiation module is arranged in the LED lamp remote control device, the network speed negotiation instruction is generated and sent to the LED lamp control card, the remote adjustment module is arranged, the adopted target network speed parameter is determined according to the LED lamp control card, the network speed parameter of the remote communication module is adjusted to the target network speed parameter, and the optimal communication network speed of the LED lamp is simply and reliably set.

Description

LED lamp remote control device, LED lamp control card and LED lamp control method

Technical Field

The embodiment of the invention relates to the technical field of LED lamp control, in particular to a remote control device of an LED lamp, an LED lamp control card and an LED lamp control method.

Background

At present, landscape lighting is rapidly developed, and network speed control is required to be carried out on the landscape lighting through a control card. The requirements of each landscape lighting project on the network speed are different, and the traditional landscape lighting control card only supports a common hundred-million network and does not support a gigabit network in order to increase the reliability of data transmission, so that the high-definition video playing is not supported; even if some landscape lighting control cards support hundred mega and giga network speeds, the problem of unsuccessful configuration often occurs in practical application, and the traditional LED landscape lighting control cards all set the physical layer chip of the control card into a giga or hundred mega mode by an upper computer in a forced manner, so that the method can cause that the network setting between the upper computer and the control card is unsuccessful and the network speed setting cannot be carried out.

Disclosure of Invention

The technical problem to be solved by the embodiments of the present invention is to provide a remote control device for an LED lamp, which can simply and reliably set an optimal communication network speed of the LED lamp.

The embodiment of the invention further aims to solve the technical problem of providing an LED lamp control card which can simply and reliably set the optimal communication network speed of an LED lamp.

The embodiment of the invention further solves the technical problem of providing an LED lamp control method, which can simply and reliably set the optimal communication network speed of the LED lamp.

In order to solve the technical problem, the embodiment of the invention adopts the following technical scheme: the utility model provides a LED lamps and lanterns remote control device, includes the far-end communication module that is used for carrying out two-way communication with the inside LED lamps and lanterns control card of locating LED lamps and lanterns and is connected, LED lamps and lanterns remote control device still includes:

the remote negotiation module is used for sending a network speed negotiation instruction and sending the network speed negotiation instruction to the LED lamp control card through the remote communication module, and the network speed negotiation instruction comprises a network speed negotiation code and a network speed parameter applicable to the remote communication module; and

and the remote adjusting module is used for determining an adopted target network speed parameter according to the LED lamp control card fed back by the LED lamp control card and received by the remote communication module, and adjusting the network speed parameter of the remote communication module into the target network speed parameter.

Further, the remote communication module is a full-duplex communication module.

In order to solve the above technical problem to be further solved, the embodiment of the present invention further adopts the following technical solutions: the utility model provides a LED lamps and lanterns control card, locates inside the LED lamps and lanterns, including set up in the physical layer of LED lamps and lanterns control card and be used for with the terminal communication module of LED lamps and lanterns remote control device's far-end communication module establishes two-way communication connection, LED lamps and lanterns control card still includes:

the terminal negotiation module is used for responding to a network speed negotiation instruction received by the terminal communication module and sent by the LED lamp remote control device, determining a network speed parameter jointly applicable to the remote communication module and the terminal communication module as a target network speed parameter according to a network speed parameter applicable to the remote communication module and a network speed parameter applicable to the terminal communication module, which are contained in the network speed negotiation instruction, and feeding the target network speed parameter back to the remote communication module through the terminal communication module; and

and the terminal adjusting module is used for adjusting the network speed of the terminal communication module to the target network speed parameter.

Further, the terminal negotiation module takes the fastest network speed parameter of the network speed parameters commonly applied by the remote communication module and the terminal communication module as the target network speed parameter.

Further, the terminal communication module is a full-duplex communication module.

In order to solve the above technical problem to be further solved, the embodiment of the present invention further adopts the following technical solutions: an LED lamp control method comprises the following steps:

the remote communication module is in bidirectional communication connection with the LED lamp control card;

generating and sending a network speed negotiation instruction to the LED lamp control card through a remote negotiation module, wherein the network speed negotiation instruction comprises a network speed negotiation code and a network speed parameter applicable to the remote communication module;

receiving a target network speed parameter determined by the LED lamp control card fed back by the LED lamp control card through a remote communication module; and

and adjusting the network speed parameter of the remote communication module into the target network speed parameter through a remote adjusting module.

Further, the bidirectional communication connection is in a duplex communication mode.

In order to solve the above technical problem to be further solved, the embodiment of the present invention further adopts the following technical solutions: an LED lamp control method comprises the following steps:

establishing bidirectional communication connection with a remote communication module of the LED lamp remote control device through a terminal communication module;

receiving a network speed negotiation instruction sent by the LED lamp remote control device through a terminal communication module, wherein the network speed negotiation instruction comprises a network speed negotiation code and a network speed parameter applicable to the remote communication module;

responding to the network speed negotiation instruction through a terminal negotiation module, determining a network speed parameter jointly applicable to the remote communication module and the terminal communication module as a target network speed parameter according to a network speed parameter applicable to the remote communication module and a network speed parameter applicable to the terminal communication module of the LED lamp, and feeding the target network speed parameter back to the remote communication module through the terminal communication module; and

and adjusting the network speed of the terminal communication module into the target network speed parameter through a terminal adjusting module.

Further, the determining of the network speed parameter commonly applicable to the remote communication module and the terminal communication module as the target network speed parameter specifically includes using a network speed parameter with a highest speed in the network speed parameters commonly applicable to the remote communication module and the terminal communication module as the target network speed parameter.

Further, the bidirectional communication connection is a full duplex communication mode.

By adopting the technical scheme, the embodiment of the invention at least has the following beneficial effects: according to the embodiment of the invention, the remote negotiation module is arranged in the LED lamp remote control device, the network speed negotiation instruction is generated and sent to the LED lamp control card through the remote communication module, the remote adjustment module is arranged, the adopted target network speed parameter is determined according to the LED lamp control card received by the remote communication module, the network speed parameter of the remote communication module is adjusted to the target network speed parameter, and the optimal communication network speed of the LED lamp is simply and reliably set.

Drawings

Fig. 1 is a block diagram of an alternative embodiment of the connection between an LED lamp remote control device and an LED lamp control card according to the present invention.

Fig. 2 is a schematic flow chart of an alternative embodiment of the LED lamp control method according to the present invention.

Fig. 3 is a schematic flow chart of another alternative embodiment of the LED lamp control method according to the present invention.

Detailed Description

The invention is described in further detail below with reference to the figures and specific examples. It is to be understood that the following illustrative embodiments and description are only intended to illustrate the present invention, and are not intended to limit the present invention, and features of the embodiments and examples of the present invention may be combined with each other without conflict.

As shown in fig. 1, an optional embodiment of the present invention provides an LED lamp remote control device, including a remote communication module 30 for performing bidirectional communication connection with an LED lamp control card 10 disposed inside an LED lamp 1, where the LED lamp remote control device 3 further includes:

the remote negotiation module 32 is configured to send a network speed negotiation instruction and send the network speed negotiation instruction to the LED lamp control card 10 through the remote communication module 30, where the network speed negotiation instruction includes a network speed negotiation code and a network speed parameter applicable to the remote communication module 30; and

a remote adjusting module 34, configured to adjust the network speed parameter of the remote communication module 30 to the target network speed parameter according to the target network speed parameter determined by the LED lamp control card 10 received by the remote communication module 30 and fed back by the LED lamp control card 10.

In specific implementation, the LED lamp remote control device 3 may adopt a computing device with computing and data processing capabilities and an operation instruction sending capability, such as a personal computer, an industrial computer, a server, a single chip microcomputer, and the like.

In the embodiment, the remote negotiation module 32 is arranged in the LED lamp remote control device 3, a network speed negotiation instruction is generated and sent to the LED lamp control card 10 through the remote communication module 32, the remote adjustment module 34 is arranged, a target network speed parameter adopted is determined according to the LED lamp control card 10 received by the remote communication module 32, the network speed parameter of the remote communication module 32 is adjusted to the target network speed parameter, and the communication network speed of the optimal LED lamp control card 10 is simply and reliably set.

In another alternative embodiment of the present invention, the remote communication module 32 is a full duplex communication module. In the embodiment, the remote communication module 32 is configured as a full-duplex module, so that the network speed can be set with the LED lamp control card 10 at a high speed, and the delay is reduced.

On the other hand, an embodiment of the present invention further provides an LED lamp control card, which is disposed inside an LED lamp 1, and includes a terminal communication module 101 disposed on a physical layer of the LED lamp control card 10 and configured to establish a bidirectional communication connection with a remote communication module 30 of a remote control device 3 of the LED lamp, where the LED lamp control card 10 further includes:

a terminal negotiation module 103, configured to respond to a network speed negotiation instruction received by the terminal communication module 101 and sent by the LED lamp remote control device 3, determine, according to a network speed parameter applicable to the remote communication module 30 and a network speed parameter applicable to the terminal communication module 101 that are included in the network speed negotiation instruction, a network speed parameter applicable to both the remote communication module 30 and the terminal communication module 101 as a target network speed parameter, and feed the target network speed parameter back to the remote communication module 30 through the terminal communication module 101; and

a terminal adjusting module 105, configured to adjust the network speed of the terminal communication module 101 to the target network speed parameter.

In this embodiment, a terminal negotiation module 103 is arranged in an LED lamp control card 10, and responds to a network speed negotiation instruction received by the terminal communication module 101 and sent by the LED lamp remote control device 3, and determines a network speed parameter commonly applicable to the remote communication module 30 and the terminal communication module 101 as a target network speed parameter according to a network speed parameter applicable to the remote communication module 30 and a network speed parameter applicable to the terminal communication module 101, which are included in the network speed negotiation instruction, and then adjusts the network speed of the terminal communication module 101 to the target network speed parameter by a terminal adjustment module 105, so as to simply and reliably set the network speed of the optimal LED lamp control card 10.

In another optional embodiment of the present invention, the terminal negotiation module 103 uses, as the target network speed parameter, a network speed parameter with a fastest speed in network speed parameters jointly applicable by the remote communication module 30 and the terminal communication module 101. In this embodiment, the network speed parameter with the fastest speed in the network speed parameters commonly applied by the remote communication module 30 and the terminal communication module 101 is used as the target network speed parameter, so as to avoid the problem that the physical layer of the LED lamp control card 10 is forcibly set to a giga or hundred mega mode, and the network setting between the LED lamp remote control device 3 and the LED lamp control card 10 is unsuccessful; an optimal network speed can also be set for the LED luminaire control card 10.

In another optional embodiment of the present invention, the terminal communication module 101 is a full duplex communication module. In the present embodiment, the terminal communication module 101 is set as a full-duplex communication module, so that the network speed setting with the LED lamp remote control device 3 can be performed at a high speed, and the delay can be reduced.

On the other hand, as shown in fig. 2, an embodiment of the present invention further provides a method for controlling an LED lamp, including the following steps:

s11: the LED lamp control card 10 is in bidirectional communication connection with the remote communication module 30;

s12: generating and sending a network speed negotiation instruction to the LED lamp control card 10 through a remote negotiation module 32, where the network speed negotiation instruction includes a network speed negotiation code and a network speed parameter applicable to the remote communication module;

s13: receiving a target network speed parameter determined by the LED lamp control card 10 fed back by the LED lamp control card 10 through a remote communication module 30; and

s14: the network speed parameter of the remote communication module 30 is adjusted to the target network speed parameter by the remote adjusting module 34.

According to the method, the remote communication module 30 is in bidirectional communication connection with the LED lamp control card 10, so as to generate the network speed negotiation instruction, send the network speed negotiation instruction to the LED lamp control card 10 through the remote communication module 32, receive the target network speed parameter determined by the LED lamp control card 10 fed back by the LED lamp control card 10, and adjust the network speed parameter of the remote communication module 32 to the target network speed parameter, so that the optimal communication network speed of the LED lamp control card 10 can be set simply and reliably.

In another alternative embodiment of the present invention, the bi-directional communication connection is a duplex communication mode. In the present embodiment, by setting the bidirectional communication connection to the full-duplex communication mode, it is possible to perform network speed setting with the LED lamp control card 10 at a high speed, thereby reducing delay.

On the other hand, as shown in fig. 3, an embodiment of the present invention further provides a method for controlling an LED lamp, including the following steps: s21: establishing bidirectional communication connection with a remote communication module 30 of the LED lamp remote control device 3 through a terminal communication module 101;

s22: receiving a network speed negotiation instruction sent by the LED lamp remote control device 3 through a terminal communication module 101, wherein the network speed negotiation instruction comprises a network speed negotiation code and a network speed parameter applicable to the remote communication module;

s23: responding to the network speed negotiation instruction through a terminal negotiation module 103, determining a network speed parameter commonly applicable to the remote communication module 30 and the terminal communication module 101 of the LED lamp 1 as a target network speed parameter according to the network speed parameter applicable to the remote communication module 30 and the network speed parameter applicable to the terminal communication module 101, and feeding back the target network speed parameter to the remote communication module 30 through the terminal communication module 101; and

s24: and adjusting the network speed of the terminal communication module 101 to the target network speed parameter through a terminal adjusting module 105.

According to the method, the terminal communication module 101 establishes bidirectional communication connection with the remote communication module 30 of the LED lamp remote control device 3, receives the network speed negotiation instruction sent by the LED lamp remote control device 3, determines the network speed parameter commonly applied by the remote communication module 30 and the terminal communication module 101 as the target network speed parameter according to the network speed parameter applied by the remote communication module 30 and the network speed parameter applied by the terminal communication module 101 of the LED lamp 1, and finally adjusts the network speed of the terminal communication module 101 to the target network speed parameter, so that the network speed of the optimal LED lamp control card 10 can be set simply and reliably.

In another optional embodiment of the present invention, the determining, as the target network speed parameter, the network speed parameter jointly applicable by the remote communication module 30 and the terminal communication module 101 is specifically to use, as the target network speed parameter, a network speed parameter with a highest speed in the network speed parameters jointly applicable by the remote communication module 30 and the terminal communication module 101. In this embodiment, the network speed parameter with the fastest speed in the network speed parameters commonly applied by the remote communication module 30 and the terminal communication module 101 is used as the target network speed parameter, so as to avoid the problem that the physical layer chip of the LED lamp control card 10 is forcibly set to a giga or hundred mega mode, and the network setting between the LED lamp remote control device 3 and the LED lamp control card 10 is unsuccessful; an optimal network speed can also be set for the LED luminaire control card 10.

In another alternative embodiment of the present invention, the bidirectional communication connection is a full duplex communication mode. In the present embodiment, by setting the bidirectional communication connection to the full-duplex communication mode, it is possible to set the network speed with the LED lamp remote control device 3 at a high speed, and delay is reduced.

The functions described in the embodiments of the present invention may be stored in a storage medium readable by a computing device if they are implemented in the form of software functional modules or units and sold or used as independent products. Based on such understanding, part of the contribution of the embodiments of the present invention to the prior art or part of the technical solution may be embodied in the form of a software product stored in a storage medium and including instructions for causing a computing device (which may be a personal computer, a server, a mobile computing device, a network device, or the like) to execute all or part of the steps of the method described in the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes. The embodiments are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same or similar parts among the embodiments are referred to each other.

While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (10)

1. The utility model provides a LED lamps and lanterns remote control device, includes the far-end communication module that is used for carrying out two-way communication connection with the inside LED lamps and lanterns control card of locating LED lamps and lanterns, its characterized in that, LED lamps and lanterns remote control device still includes:

the remote negotiation module is used for generating a network speed negotiation instruction and sending the network speed negotiation instruction to the LED lamp control card through the remote communication module, wherein the network speed negotiation instruction comprises a network speed negotiation code and a network speed parameter applicable to the remote communication module; and

and the remote adjusting module is used for determining an adopted target network speed parameter according to the LED lamp control card fed back by the LED lamp control card and received by the remote communication module, and adjusting the network speed parameter of the remote communication module into the target network speed parameter.

2. The LED light fixture remote control of claim 1 wherein the remote communication module is a full duplex communication module.

3. The utility model provides a LED lamps and lanterns control card, locates inside the LED lamps and lanterns, including set up in the physical layer of LED lamps and lanterns control card and be used for with the terminal communication module of LED lamps and lanterns remote control device's far-end communication module establishes two-way communication connection, its characterized in that, LED lamps and lanterns control card still includes:

the terminal negotiation module is used for responding to a network speed negotiation instruction received by the terminal communication module and sent by the LED lamp remote control device, determining a network speed parameter jointly applicable to the remote communication module and the terminal communication module as a target network speed parameter according to a network speed parameter applicable to the remote communication module and a network speed parameter applicable to the terminal communication module, which are contained in the network speed negotiation instruction, and feeding the target network speed parameter back to the remote communication module through the terminal communication module; and

and the terminal adjusting module is used for adjusting the network speed of the terminal communication module to the target network speed parameter.

4. The LED lamp control card according to claim 3, wherein the terminal negotiation module uses a fastest network speed parameter among network speed parameters commonly applied by the remote communication module and the terminal communication module as the target network speed parameter.

5. The LED lamp control card of claim 3, wherein the terminal communication module is a full duplex communication module.

6. A control method of an LED lamp is characterized by comprising the following steps:

the remote communication module is in bidirectional communication connection with the LED lamp control card;

generating and sending a network speed negotiation instruction to the LED lamp control card through a remote negotiation module, wherein the network speed negotiation instruction comprises a network speed negotiation code and a network speed parameter applicable to the remote communication module;

receiving a target network speed parameter determined by the LED lamp control card fed back by the LED lamp control card through a remote communication module; and

and adjusting the network speed parameter of the remote communication module into the target network speed parameter through a remote adjusting module.

7. The LED lamp control method of claim 6, wherein the bi-directional communication connection is a duplex communication mode.

8. A control method of an LED lamp is characterized by comprising the following steps:

establishing bidirectional communication connection with a remote communication module of the LED lamp remote control device through a terminal communication module;

receiving a network speed negotiation instruction sent by the LED lamp remote control device through a terminal communication module, wherein the network speed negotiation instruction comprises a network speed negotiation code and a network speed parameter applicable to the remote communication module;

responding to the network speed negotiation instruction through a terminal negotiation module, determining a network speed parameter jointly applicable to the remote communication module and the terminal communication module as a target network speed parameter according to a network speed parameter applicable to the remote communication module and a network speed parameter applicable to the terminal communication module of the LED lamp, and feeding the target network speed parameter back to the remote communication module through the terminal communication module; and

and adjusting the network speed of the terminal communication module into the target network speed parameter through a terminal adjusting module.

9. The LED lamp control method according to claim 8, wherein the determining of the network speed parameter commonly applicable to the remote communication module and the terminal communication module as the target network speed parameter is specifically to use a network speed parameter with a fastest speed among the network speed parameters commonly applicable to the remote communication module and the terminal communication module as the target network speed parameter.

10. The LED luminaire control method of claim 8, wherein said bidirectional communication connection is a full-duplex communication mode.

Images