WO2013034361A1 - An illumination control system, an illuminating device and a secondary controller - Google Patents

Abstract

The present invention relates to an illumination control system (100) comprising a mobile phone (1), a secondary controller (2) and a plurality of illuminating devices (3), the mobile phone (1) and the secondary controller (2) performing a first communication through a first short range wireless communication protocol, and the secondary controller (2) and the plurality of illuminating devices (3) performing a second communication through a second short range wireless communication protocol. The present invention provides an illumination control system that has a low cost and is easily operated.

Description

Description

An Illumination Control System, an Illuminating Device and a Secondary Controller

Technical Field

The present invention relates to an illumination control system, an illuminating device and a secondary controller.

Background Art

In modern society, the illuminating devices are widely used for illumination, and higher requirements are put on the illuminating devices, for instance, the lamp is required to be capable of being turned on and off automatically and periodically, or capable of providing brightness to different degrees in different situation.

A remote controller is used to control the illuminating devices in the prior art in order to make it easy for the user to control the illuminating devices. However, a specially designed remote controller will additionally increase the cost. Further according to the prior art, the illuminating devices are controlled with a mobile phone. As the mobile phone usually comprises some short range wireless modules such as WLAN/WIFI/Bluetooth module, WLAN/WIFI/Bluetooth modules corresponding thereto are provided in each illuminating device for connection with such modules (see Fig. 1), while the WLAN/WIFI/Bluetooth module is expensive, even more costly than the illuminating device itself, then the application range of such illuminating device is quite restricted. Summary of the Invention

One object of the present invention lies in providing a new illumination control system that has a low cost, is easily operated and can overcome the defects in the prior art.

The object of the present invention is accomplished via an illumination control system. The illumination control system comprises a mobile phone, a secondary controller and a plurality of illuminating devices, the mobile phone and the secondary controller performing a first communication through a first short range wireless communication protocol, and the secondary controller and the plurality of illuminating devices performing a second communication through a second short range wireless communication protocol . The secondary controller enables the plurality of illuminating devices and the mobile phone to communicate with each other through a wireless transmission protocol that is different from a protocol of a wireless communication module carried by the mobile phone itself, so that it is possible to improve the design and reduce the cost.

According to an exemplary embodiment of the present invention, the secondary controller comprises a first communication module for the first communication and a second communication module for the second communication, and the first communication module and the second communication module exchange data with each other.

Preferably, the second short range wireless communication protocol is a ZigBee protocol that has advantages of a large network capacity, a low cost and relay transmission and is adapted to remote control and management and control of a plurality of illuminating devices distributed in a large area. Correspondingly, the second communication module is a ZigBee module communicating with a ZigBee module of each il- luminating device. Therefore, the cost is significantly reduced while realizing the wireless transmission since the ZigBee module is quite cheaper than the WLAN/WIFI/Bluetooth module .

Preferably, the ZigBee module is a ZigBee chip, including but not limited to CC2530, carrying a wireless protocol.

According to a preferred solution of the present invention, the number of the secondary controller is one, and then there is one first communication module for the first communication and one second communication module for the second communica- tion in the secondary controller. The cost can be greatly reduced by reducing the number of the expensive first communication module for communication with the mobile phone.

Preferably, the first short range wireless communication protocol is a WLANor WIFI or Bluetooth protocol. Correspond- ingly, the first communication module is a WLAN/Bluetooth module. The WLAN/Bluetooth module may be a WL chip or Bluetooth chip, including but not limited to WL 1251 chip.

According to one aspect of the present invention, the secondary controller further comprises a UART port between the ZigBee module and the GPRS module.

The present invention further relates to corresponding illuminating device and secondary controller. The illumination control system according to the present invention can have a low cost, and also can be better controlled and management with the mobile phone.

Brief Description of the Drawings In the accompanying drawings, like reference sign usually refers to the same part in different figures. Embodiments of the present invention will be described with reference to the figures in the following the Description, wherein

Fig. 1 is a schematic diagram of layout of an illumination control system in the prior art;

Fig. 2 is a schematic diagram of layout of an illumination control system according to one exemplary embodiment of the present invention; and

Fig. 3 is a schematic diagram of layout of a secondary con- troller according to one exemplary embodiment of the present invention .

Detailed Description of the Embodiments

Fig. 2 is a schematic diagram of layout of an illumination control system 100 according to one exemplary embodiment of the present invention. The illumination control system 100 comprises a mobile phone 1, a WLAN/Bluetooth-ZigBee secondary controller 2, and a plurality of illuminating devices 3 with a ZigBee module 4. The mobile phone 1 and the

WLAN/Bluetooth-ZigBee secondary controller 2 realize a wire- less link 6 therebetween through a short range wireless communication protocol WLAN/Bluetooth, and the WLAN/Bluetooth- ZigBee secondary controller 2 and the plurality of illuminating devices 3 with the ZigBee module 4 realize a wireless link 7 through a wireless communication protocol ZigBee.

The plurality of illuminating devices 3 with the ZigBee mod- ule 4 may have an arbitrary topological structure. Each illuminating device 3 may both receive information sent from an adjacent illuminating device 3 and forward the information received to other adjacent illuminating devices 3 that continue to transfer the information. As long as some of the illuminating devices 3 are arranged near the WLAN/Bluetooth- ZigBee secondary controller 2 so that the ZigBee module 4 of the illuminating device 3 and a ZigBee module 9 of the WLAN/Bluetooth-ZigBee secondary controller 2 are enabled to communicate, all the illuminating devices 3 can transfer the information therebetween through the ZigBee protocol. Therefore, it is unnecessary to arrange the expensive WLAN/Bluetooth module in the illuminating device 3, and the number of the WLAN/Bluetooth-ZigBee secondary controller 2 can be significantly reduced, so as to further reduce the number of the expensive WLAN/Bluetooth module for reducing the cost .

The WLAN/Bluetooth-ZigBee secondary controller 2 also may communicate with the mobile phone 1 through other wireless communication protocols. Of course, other short range wire- less communication protocols also may be considered to realize the communication between the illuminating device 3 and the WLAN/Bluetooth-ZigBee secondary controller 2.

Fig. 3 is a schematic diagram of layout of the WLAN/Bluetooth-ZigBee secondary controller 2 according to one exemplary embodiment of the present invention. The WLAN/Bluetooth-ZigBee secondary controller 2 comprises one WLAN/Bluetooth module 8 and one ZigBee module 9. The WLAN/Bluetooth module 8 is configured for a first communica- tion with the mobile phone 1, and the ZigBee module 9 performs a second communication with the ZigBee module 4 provided in the illuminating device 3 through the short range wireless communication protocol ZigBee protocol . The WLAN/Bluetooth module 8 and the ZigBee module 9 communicate via a hardware port UART 10. In the present embodiment, a WL1251 may be used as the WLAN/Bluetooth module 8, and a CC2530 may be used as the ZigBee module 9.

Accordingly, the user may control the illuminating devices 3 through the WLAN/Bluetooth-ZigBee secondary controller 2 by means of the mobile phone 1, and the mobile phone 1 can receive information related to the illuminating device 3, such as state of the illuminating devices 3, distribution of light sources, from the illuminating devices 3 through the WLAN/Bluetooth-ZigBee secondary controller 2. The mobile phone 1 may give some commands, and the illuminating device 3 may identify these commands if the ZigBee protocol has the same command definitions. Besides, the user also may define some commands for establishing or recalling some scenes. For example, firstly, scenes may be used to define the commands to make each illuminating device remember a dim level of a certain scene, and then a scene selection command is used to select a scene such as meeting mode, office mode, dancing mode and sleeping mode. The mobile phone 1 can be better used by setting software therein, and unnecessary details will not be given herein since they are not key points of the present invention. List of reference signs

100 illumination control system

1 mobile phone

2 secondary controller (WLAN/Bluetooth-ZigBee secondary controller)

3 illuminating device

4 ZigBee module

6 wireless link

7 wireless link 8 WLAN/Bluetooth module

9 ZigBee module

10 URAT port

Claims

Patent claims

1. An illumination control system (100) comprising a mobile phone (1), a secondary controller (2) and a plurality of illuminating devices (3), the mobile phone (1) and the secondary controller (2) performed a first communication through a first short range wireless communication protocol, and the secondary controller (2) and the plurality of illuminating devices (3) performed a second communication through a second short range wireless communication protocol .

2. The illumination control system (100) according to Claim 1, wherein the secondary controller (2) comprises a first communication module for the first communication and a second communication module for the second communication, and the first communication module and the second communication module exchange data with each other.

3. The illumination control system (100) according to Claim 1 or 2, wherein the second short range wireless communication protocol is a ZigBee protocol.

4. The illumination control system (100) according to Claim 3, wherein the second communication module is a ZigBee module (9), and each illuminating device (3) comprises another ZigBee module (4) communicating with the ZigBee module (9) .

5. The illumination control system (100) according to Claim 4, wherein the ZigBee module (9) of the secondary controller (2) is a ZigBee chip

6. The illumination control system (100) according to Claim 3, wherein there is one secondary controller (2) .

7. The illumination control system (100) according to Claim 3, wherein the first short range wireless communication protocol is a WLAN or WIFI or Bluetooth protocol.

8. The illumination control system (100) according to Claim

7, wherein the first communication module is a WLAN/Bluetooth module (8) .

9. The illumination control system (100) according to Claim

8, wherein the WLAN/Bluetooth module (8) is a WLAN/Bluetooth chip .

10. The illumination control system (100) according to Claim 8, wherein the secondary controller (2) further comprises a UART port (10) between the ZigBee module (9) and the WLAN/Bluetooth module (8) .

11. An illuminating device (3) for the illumination control system (100) according to any one of Claims 1-10, wherein the illuminating device (3) comprises the ZigBee module (4) .

12. A secondary controller (2) for the illumination control system (100) according to any one of Claims 1-10, wherein a mobile phone (1) and the secondary controller (2) perform a first communication through a first short range wireless communication protocol, and the secondary controller (2) and a plurality of illuminating devices (3) perform a second communication through a second short range wireless communication protocol .

13. The secondary controller (2) according to Claim 12 comprising a first communication module for the first communication and a second communication module for the second communication, the first communication module and the second communication module exchanged data with each other

14. The secondary controller (2) according to Claim 13, wherein the first communication module is a WLAN/Bluetooth module (8) and the second communication module is a ZigBee module (9) .

15. The secondary controller (2) according to Claim 14 further comprising a UART port (10) between the ZigBee module (9) and the WLAN/Bluetooth module (8) .